$************************************************************************** $ $ mc_al_v2.035.tdb $ $************************RELEASE VERSION*********************************** $ $ MatCalc thermodynamic database for aluminium alloys. $ $ Created 2021-03-18 $ $ This database contains edited and newly assessed thermodynamic data $ for Al-base alloys. $ Thermodynamic parameters have been assessed at TU Wien $ by Povoden-Karadeniz Erwin. $ $ ######################################################################### $ $ use with MatCalc version 5.62.0.010 or higher $ $ ######################################################################### $ $ Copyright and editor: Erwin Povoden-Karadeniz $ (erwin.povoden-karadeniz@tuwien.ac.at) $ $ This database mc_al_v2.035.tdb is made available under the $ Open Database License: http://opendatacommons.org/licenses/odbl/1.0/. $ Any rights in individual contents of the database are licensed under the $ Database Contents License: http://opendatacommons.org/licenses/dbcl/1.0/. $ $ ######################################################################### $ The following assessments are incorporated in this database: $ $ ... see list of publications in the reference section $ at the end of this file ... $ $ The following elements are included in this database: $ $ Al, Cr, Cu, Fe, Mg, Mn, Ni, Si, Ti, Zn, Zr $ Ambit $ This database version has been designed for thermokinetic simulations $ in Al-alloys containing additions of Cu,Fe,Mg,Mn,Si,Zn,Zr. $ It has been tested for Al-Cu-Fe-Mg-Mn-Si-Zn wrought and cast Al-alloys $ 2xxx, 6xxx and 7xxx from melting to room temperature. $ For kinetic simulations at low temperature, the low temperature limits $ of Gibbs energies were reduced $ from 298.15 K as given by Ref 0 to 273.00 K. $ For kinetic simulations at very high temperatures, the high temperature limits $ of Gibbs energies were in some cases extended to higher temperatures $ than given by Ref 0. $ This database is optimized in the Al-rich part, X(Al)>0.9, $ of the Al-Cr-Cu-Fe-Mg-Mn-Si-Zn system. $ The following phases are included in this database. $ They are listed in the order of their appearance in $ part D) Thermodynamic model parameters for phases. $ For their documentation see part D). $ Documentation and priority rankings suggested by the editor are visible $ in the MatCalc databases window after reading the database $ and marking the phase of interest. $ $ M=constituent, M%=mayor constituent $ Detailed descriptions of phases with relevance for precipitation $ are found in the thermodynamic descriptions part. $ $ LIQUID...........(M)1, random solution model $ $ FCC_A1...........(M)1(VA)1, face centered cubic $ (BCC_A2...........M1(VA)3, body centered cubic) low priority $ HCP_A3...........(M)1(VA)0.5, hexagonal close-packed $ (HCP_ZN..........(M,ZN%)1VA0.5) low priority $ (CBCC_A12.........M1VA1) low priority $ (CUB_A13..........M1VA1) low priority $ SI_DIAMOND_A4.....silicon, (AL,SI%,TI,ZN) $ intermetallic equilibrium phases with relevance in 2xxx, 6xxx, 7xxx alloys $ $ AL4CR ...........orthorhombic epsilon-phase $ AL11CR2..........monoclinic eta-phase $ AL13CR2..........monoclinic (Al)7(Cr,Al)1 $ ALCRCU_TAU.......Al16(Cr,Fe)3Cu $ AL18CR2MG3 ......AL18CR2(MG,MN)3 $ AL9CR3SI ........AL9CR3SI $ ALCRSI_T3.......(AL,SI)11CR4 $ AL13CR4SI4.......AL13CR4SI4 $ AL58CR31SI11 ....AL58CR31SI11 $ AL7CU2FE ........tetragonal $ AL23CUFE4 .......Al23CuFe4 $ ALCUMN_T1........Al-Cu-Mn T1-phase $ AL13FE4..........monoclinic AL0.6275(FE,MN)0.235(AL,SI,VA)0.1375 $ ALCRFEMNSI_A.....AL16(CR,FE,MN)4SI(AL%,SI)2 alpha-AlMnSi phase, cubic $ AL8FEMNSI2.......Al16/23Fe2/23Mn2/23Si3/23 $ ALFEMNSI_B.......AL15SI1(AL,SI)4(FE,MN)6 beta-Al(Fe)MnSi phase $ ALFENI_T1........monoclinic AL9/11(FE,NI)2/11 tau1 phase $ ALFESI_T6........monoclinic AL0.598FE0.152SI0.10(AL,SI)0.15, $ Al5FeSi Beta-tau6 phase, monoclinic $ AL12MN...........cubic AL1(FE,MN)0.08333 $ AL3NI............ordered AL0.75(FE,NI)0.25 $ ALSC $ AL2SC............AL0.667SC0.333 $ AL3SC............AL0.75SC0.25 $ SC2AL $ AL3TI_H..........high-temperature Al-Ti epsilon $ AL3TI_L..........low-temperature Al-Ti epsilon $ AL3ZR............AL3(SC,SI,ZR) $ LC14_ZN2MG.......hexagonal Laves-phase (CU,NI,ZN)0.6667Mg0.3333 $ MGALCUZN_T.......MG26(AL,MG%)6(AL%,CU%,MG,ZN%)48AL tau phase $ MG2SI_B..........cubic MG2SI beta phase $ PI_ALFEMGSI......hexagonal Al18Fe2Mg7Si10 $ Q_PHASE_L........hexagonal Al3Cu2Mg9Si7 Q-phase $ Q_PHASE_H........hexagonal Al4Cu2Mg8Si7 Q-phase $ S_PHASE..........orthorhombic Al2CuMg S-phase $ SI2ZR............Si2Zr $ THETA_AL2CU......tetragonal AL2(AL,CU) $ high priority metastable precipitates $ $ AL_B_DP_.........monoclinic Al2Mg5Si4 beta double prime $ (beta double-prime containing Al) $ ALCRSI...........AlCrSi, metastable "alpha'", PRELIMINARY $ ALMGZN_GP........Al8MgZn1.2 $ ALMG4ZN11 $ AL6MN............orthorhombic AL1(FE,MN)0.166667 $ BETA_DP..........monoclinic Mg5Si4(Si,Al)2 beta double prime $ B_PRIME_L........Al3Mg9Si7, B-prime phase $ B_PRIME_H........Al4Mg8Si7, B-prime phase $ CL_MGSI..........disordered Mg-Si-Cocluster $ CL_ALMGSI........disordered Al-Mg-Si-Cocluster $ ETA_P_ALMGZN.....hexagonal Zn1.65Mg0.75Al0.6 eta prime $ GP_MAT...........Al2MgSi GP-zones, ordered $ GP_MGSI..........GP-zones, Al-free. Simple model (Mg)1(Si)1 $ L12AL3ZR.........cubic Al3Zr $ MGSI_B_P.........hexagonal close-packed Mg1.8Si beta prime $ MG5SI6_B_DP......monoclinic Mg5Si6 beta double prime without Al $ PRE_B_DP.........AlMg4Si6 PRE-beta double prime phase $ TH_DP_GPB........Al6Cu2 Theta double-prime $ TH_DP_GPB........composition set 1 (automatically created): $ Al4Mg2Cu2 GPB-zones $ THETA_PRIME......AL2(AL,CU) theta prime phase $ U1_PHASE.........Al2MgSi2 $ U2_PHASE.........Al4Mg4Si4 $ intermetallic phases with lower relevance for 2xxx, 6xxx, 7xxx Al-alloys $ $ ALCR $ ALCR2 $ AL8CR5_H $ AL8CR5_L $ AL9CR4_H $ AL9CR4_L $ AL2CU3_D .......(AL%,ZN)2CU3 delta phase $ ALCU_E..........(AL%,CU,ZN)CU epsilon phase $ ALCU_ETA........(AL%,CU)(CU%,ZN) $ ALCU_G_D83.......AL4(AL,CU%)CU8 gamma phase $ AL9CU11_Z.......(AL%,ZN)9CU11 $ ALCUMG_V.........AL5CU6MG2 $ ALCUZN_T........(AL%,ZN)(CU%,VA) $ AL2FE...........(AL,SI)2/3(FE,MN,NI)1/3 $ AL5FE2..........(AL,SI)5/7(FE,MN,NI)2/7 $ AL5FE4..........(AL,FE,MN) $ ALFENI_T2........AL5/7(FE,NI)2/7 tau2 phase $ ALFENI_T3........AL0.71FE0.05NI0.24 tau3 phase $ ALFESI_T1.......(AL,SI)0.625FE0.375 tau1 phase $ ALFESI_T2........monoclinic AL0.5FE0.2SI0.1(AL,SI)0.2, $ Al5Fe2Si2 Gamma-tau2 $ ALFESI_T3........AL0.55FE0.25SI0.20 tau3 phase $ ALFESI_T4........tetragonal AL0.4166FE0.1667SI0.25(Al,SI)0.1667, $ Al3FeSi2 Delta-tau4 $ ALFESI_T5........hexagonal AL0.6612FE0.19SI0.0496(AL,SI)0.0992, $ Al8Fe2Si Alpha-tau5 $ ALFESI_T7.......(AL,SI)3/4FE1/4 tau7 phase $ ALFESI_T8.......(AL,SI)2/3FE1/3 tau8 phase $ ALFESI_T10.......AL0.6FE0.25SI0.15 tau10 phase $ ALFESI_T11.......AL85/130FE30/130SI15/130 tau11 phase $ AL12MG2CR........Al12(Mg,Si)2Cr $ ALMGMN_T.........AL18MG3MN2, tau phase $ AL4MN............hexagonal AL4(FE,MN) $ AL8MN5_D810.....(AL%,SI)12MN4(AL,FE,MN)10 $ AL11MN4..........AL11(FE,MN)4 $ ALMNSI_B.........AL15SI(AL%,SI)4MN6 beta phase $ ALMNSI_D.........AL2MNSI3 delta phase $ AL3NI2...........AL3(AL,NI%)2(NI,VA%) $ AL3NI5...........AL0.375NI0.625 $ ALM_D019........(AL,CR,TI%)3(AL%,CR,TI) $ AL3M_D022........(AL,TI)3(CR,TI)1 $ ALSIZR_T1........(Al,Si)3Zr Tau1 phase $ ALSIZR_T2........(Al,Si)Zr Tau2 phase $ AL4SI5ZR3........AL4SI5ZR3 Tau3 phase $ ALTI.............(Al%,Cr,Ti)(Al,Cr%,Ti%) $ AL2TI $ AL11TI5..........Al17Ti8 $ ALZNCU_G_H......(AL%,ZN)4(AL,CU%)CU8 gamma phase $ ALZR.............ALZR $ ALZR2............ALZR2 $ ALZR3............ALZR3 $ AL2ZR............AL2(ZR) $ AL2ZR3...........AL2ZR3 $ AL3ZR2...........AL3ZR2 $ AL3ZR4...........AL3ZR4 $ AL3ZR5...........AL3ZR5 $ AL4ZR5...........AL4ZR5 $ BETA_AL3MG2......cubic MG89(AL%,ZN)140 $ CR3MN5 $ CR3SI $ CR5SI3 $ CRSI $ CRSI2 $ CRZN13 $ CRZN17 $ CUMGSI_S.........CU16MG6SI7 sigma phase $ CUMGSI_T.........CU3MG2SI, tau phase $ CU15SI4_E........CU0.7895SI0.2105 epsilon phase (Ref 38) $ CU19SI6_ETA......CU0.76SI0.24 $ CU33SI7_D........CU0.825SI0.175 delta phase $ CU56SI11_G.......CU0.8358SI0.1642 gamma phase $ CUZN_G..........(CU%,ZN)2(CU,ZN%)2CU3(MG,ZN)6, gamma phase $ CUZR.............CUZR $ CUZR2............CUZR2 $ CU5ZR............CU5ZR $ CU8ZR3...........CU8ZR3 $ CU10ZR7..........CU10ZR7 $ CU51ZR14.........CU51ZR14 $ E_AL30MG23.......MG23(AL%,ZN)30 epsilon $ FESI.............FE0.5SI0.5 $ FESI2_H..........FE3(AL,SI)7 $ FESI2_L..........FE1/3(AL,SI)2/3 $ FE2SI............FE2SI $ FE5SI3...........FE5SI3 $ FETI $ G_AL12MG17.......MG10(AL,MG%,ZN)24(AL%,MG,ZN)24 gamma phase $ LAVES_C15........(AL,CU%,MG,SI,ZN%)2(AL,CU,MG%,SI,ZN) Laves phase $ LAVES_C36........(AL,CU%,MG,ZN)2(AL,CU,MG%,ZN) Laves phase $ LC15_CU2MG......(CU,NI,ZN)0.6667Mg0.3333, Cu2Mg Laves-phase $ LC16_CUMG2......(CU,NI)0.3333MG0.6667, Mg2Cu Laves-phase $ LC16_NIMG2......(CU,NI%)0.3333MG0.6667, Mg2Ni Laves-phase $ LC36_NI2MG......(CU,NI%,ZN)0.6667Mg0.3333, Ni2Mg Laves-phase $ MGALZN_PHI.......MG6(AL,ZN)5 $ MGZN.............MG12(AL,CU,ZN%)13 $ MG2ZN3...........MG2(AL,CU,ZN%)3 $ MG2ZN11..........MG(AL,CU,ZN%)11 $ MG7ZN3...........MG51ZN20 $ MNSI.............MnSi $ MN3SI............Mn3Si $ MN6SI............Mn17Si3 $ MN9SI2...........Mn33Si7 $ A_MNTI $ B_MNTI $ MN3TI $ MN4TI $ MN2ZR...........(MN,ZR)2(MN,ZR) $ Q_ALCUMG.........Al7Cu3Mg6 $ SIGMA...........(AL,FE,MN,NI)8CR4(AL,CR,FE,MN,NI)18 $ H_SIGMA..........Mn8Cr4(Cr,Mn)18 $ A_SIZR $ B_SIZR $ SIZR3............SIZR3 $ SIZR2............SIZR2 $ SI2ZR............Si2Zr $ SI2ZR3...........SI2ZR3 $ SI3ZR5...........SI3ZR5 $ SI4ZR5_A.........SI4ZR5_ALPHA $ SI4ZR5_B.........SI4ZR5_BETA $ ZR_O.............ZR omega phase $*************************************************************************** $ $ A) Definition of elements $ From A. T. Dinsdale, SGTE data for pure elements (Ref 0) $ $*************************************************************************** $ $Element Standard state mass [g/mol] enthalpy_298 entropy_298 ELEMENT VA VACUUM 0.0 0.00 0.00 ! ELEMENT AL FCC_A1 26.98154 4540 28.30 ! ELEMENT CR BCC_A2 51.996 4050 23.5429 ! ELEMENT CU FCC_A1 63.546 5004. 33.15 ! ELEMENT FE BCC_A2 55.847 4489.0 27.2797 ! ELEMENT MG HCP_A3 24.305 4998.0 32.671 ! ELEMENT MN BCC_A12 54.9380 4995.696 32.2206 ! ELEMENT NI FCC_A1 58.69 4787.0 29.7955 ! ELEMENT SC HCP_A3 44.956 0.00 0.00 ! ELEMENT SI DIA_A4 28.0855 3217. 18.81 ! ELEMENT TI HCP_A3 47.88 4824.0 30.72 ! ELEMENT ZN HCP_A3 65.38 5656.7 41.631 ! ELEMENT ZR HCP_A3 91.224 5566.3 39.181 ! $*************************************************************************** $ $ B) MatCalc specific commands $ $*************************************************************************** $ $ Defines Al as reference element REFERENCE_ELEMENT AL ! $ $ new MatCalc syntax (5.23.1036) ATTACH_CONTRIBUTION GP_MAT FCC_A1 ORDER_DISORDER ! $ $ if phase TH_DP_GPB is selected, add composition set #1 for GPB Al4Cu2Mg2 ADD_COMPOSITION_SET TH_DP_GPB :MG:MG:AL:CU:CU: ! $ $*************************************************************************** $ $ MatCalc specific: enthalpy of vacancy formation $ $*************************************************************************** $ $$ ############################ FCC_A1 ########################## $ $ default for fcc_A1 is Al PARAMETER HMVA(FCC_A1,*;0) 273.00 +64200; 6000.00 N REF:pov10 ! PARAMETER HMVA(FCC_A1,AL:*;0) 273.00 +64200; 6000.00 N REF:pov10 ! PARAMETER HMVA(FCC_A1,CU:*;0) 273.00 +125000; 6000.00 N REF:pov10 ! PARAMETER HMVA(FCC_A1,FE:*;0) 273.00 +135000; 6000.00 N REF:75 ! PARAMETER HMVA(FCC_A1,MG:*;0) 273.00 +64200; 6000.00 N REF:pov11 ! PARAMETER HMVA(FCC_A1,NI:*;0) 273.00 +170000; 6000.00 N REF:pov10 ! PARAMETER HMVA(FCC_A1,SI:*;0) 273.00 +64200; 6000.00 N REF:pov11 ! $*************************************************************************** $ $ C) Gibbs energy functions (pure elements: SER-Standard elements references) $ $*************************************************************************** $ FUNCTION GHSERAL 273.00 -7976.15+137.093038*T-24.3671976*T*LN(T) -1.884662E-3*T**2-0.877664E-6*T**3+74092*T**(-1); 700.00 Y -11276.24+223.048446*T-38.5844296*T*LN(T) +18.531982E-3*T**2-5.764227E-6*T**3+74092*T**(-1); 933.47 Y -11278.378+188.684153*T-31.748192*T*LN(T)-1.231E+28*T**(-9); 2900.00 N REF:0 ! FUNCTION GHSERCR 273.00 -8856.94+157.48*T-26.908*T*LN(T) +0.00189435*T**2-1.47721E-6*T**3+139250*T**(-1); 2180.00 Y -34869.344+344.18*T-50*T*LN(T)-2.88526E+32*T**(-9); 6000.00 N REF:0 ! FUNCTION GHSERCU 273.00 -7770.458+130.485235*T-24.112392*T*LN(T) -2.65684E-03*T**2+0.129223E-06*T**3+52478*T**(-1); 1357.77 Y -13542.026+183.803828*T-31.38*T*LN(T)+3.642E+29*T**(-9); 3200.00 N REF:0 ! FUNCTION GHSERFE 273.00 +1225.7+124.134*T-23.5143*T*LN(T)-0.00439752*T**2 -5.89269E-8*T**3+77358.5*T**(-1); 1811.00 Y -25383.581+299.31255*T-46*T*LN(T)+2.2960305E+31*T**(-9); 6000.00 N REF:0 ! FUNCTION GHSERMG 273.00 -8367.34+143.675547*T-26.1849782*T*LN(T)+0.4858E-3*T**2 -1.393669E-6*T**3+78950*T**(-1); 923.00 Y -14130.185+204.716215*T-34.3088*T*LN(T)+1038.192E25*T**(-9); 3000.00 N REF:0 ! FUNCTION GHSERMN 273.00 -8115.28+130.059*T-23.4582*T*LN(T) -7.34768E-3*T**2+69827.1*T**(-1); 1519.00 Y -28733.41+312.2648*T-48.0*T*LN(T)+1.656847E+30*T**(-9); 4000.00 N REF:0 ! FUNCTION GHSERNI 273.00 -5179.159+117.854*T-22.096*T*LN(T)-4.8407E-3*T**2; 1728.00 Y -27840.655+279.135*T-43.10*T*LN(T)+1.12754E+31*T**(-9); 3000.00 N REF:0 ! FUNCTION GHSERSC 273.00 -8689.547+153.48097*T-28.1882*T*LN(T) +0.00321892*T**2-1.64531E-06*T**3+72177*T**(-1); 800 Y -7511.295+132.759582*T-24.9132*T*LN(T)-5.73295E-04*T**2 -8.59345E-07*T**3; 1608.00 Y +261143.04-1817.922454*T+241.4410508*T*LN(T)-117.529396E-3*T**2 +8.7398E-6*T**3-50607159*T**(-1); 2000.00 Y -30515.246+286.474338*T-44.2249*T*LN(T); 3200.00 N REF:0 ! FUNCTION GHSERSI 273.00 -8162.609+137.236859*T-22.8317533*T*LN(T) -1.912904E-3*T**2-0.003552E-6*T**3+176667*T**(-1); 1687.00 Y -9457.642+167.281367*T-27.196*T*LN(T)-4.2037E+30*T**(-9); 3600.00 N REF:0 ! FUNCTION GHSERTI 273.00 -8059.921+133.615208*T-23.9933*T*LN(T) -4.777975E-3*T**2+1.06716E-07*T**3+72636*T**(-1); 900.00 Y -7811.815+132.988068*T-23.9887*T*LN(T) -4.2033E-3*T**2-9.0876E-08*T**3+42680*T**(-1); 1155.00 Y +908.837+66.976538*T-14.9466*T*LN(T) -8.1465E-3*T**2+2.02715E-07*T**3-1477660*T**(-1); 1941.00 Y -124526.786+638.806871*T-87.2182461*T*LN(T) +8.204849E-3*T**2-3.04747E-07*T**3+36699805*T**(-1); 4000.00 N REF:0 ! FUNCTION GHSERZN 273.00 -7285.787+118.470069*T-23.701314*T*LN(T)-1.712034E-3*T**2 -1.264963E-6*T**3; 692.68 Y -11070.559+172.34566*T-31.38*T*LN(T)+470.514E24*T**(-9); 1700.00 N REF:0 ! FUNCTION GHSERZR 273.00 -7827.595+125.64905*T-24.1618*T*LN(T)-4.37791E-3*T**2 +34971*T**(-1); 2128.00 Y -26085.921+262.724183*T-42.144*T*LN(T)-1342.895E28*T**(-9); 6000.00 N REF:0 ! $ $*************************************************************************** $ $ Gibbs energy functions other than SER $ $*************************************************************************** $ bcc FUNCTION GALBCC 273.00 +10083-4.813*T+GHSERAL#; 6000.00 N REF:0 ! FUNCTION GCUBCC 273.00 +4017-1.255*T+GHSERCU#; 6000.00 N REF:0 ! FUNCTION GMGBCC 273.00 +3100.00-2.1*T+GHSERMG#; 6000.00 N REF:0 ! FUNCTION GMNBCC 273.00 -3235.3+127.85*T-23.7*T*LN(T) -0.00744271*T**2+60000*T**(-1); 1519.00 Y -23188.83+307.7043*T-48*T*LN(T)+1.265152E+30*T**(-9); 2000.00 N REF:0 ! FUNCTION GNIBCC 273.00 +8715.084-3.556*T+GHSERNI#; 6000.00 N REF:0 ! FUNCTION GSCBCC 273.00 -6709.819+152.456835*T-28.1882*T*LN(T)+0.00321892*T**2 -1.64531E-06*T**3+72177*T**(-1); 800.00 Y -5531.567+131.735447*T-24.91321*T*LN(T)-5.73296E-04*T**2 -8.59344833E-07*T**3; 1000.00 Y +230161.408-2004.054685*T+276.7666402*T*LN(T)-167.120107E-3*T**2 +15.637371E-6*T**3-33783257*T**(-1); 1608 Y -25928.011+283.642312*T-44.2249*T*LN(T); 3200.00 N REF:0 ! FUNCTION GSIBCC 273.00 +47000-22.5*T+GHSERSI#; 6000.00 N REF:0 ! FUNCTION GTIBCC 273.00 +6787.856+1.098972*T-1.5835*T*LN(T) +4.11413E-3*T**2-0.385519E-6*T**3-65428*T**(-1)+GHSERTI#; 900.00 Y +6539.750+1.726111*T-1.5881*T*LN(T) +3.539455E-3*T**2-0.187927E-6*T**3-35472*T**(-1)+GHSERTI#; 1155.00 Y +5758.548+38.389841*T-7.4305*T*LN(T) +9.363570E-3*T**2-1.048055E-6*T**3-525090*T**(-1)+GHSERTI#; 1941.00 Y +151010.046-821.233343*T+106.3083366*T*LN(T) -30.213169E-3*T**2+1.533611E-6*T**3-35299304*T**(-1)+GHSERTI#; 4000.00 N REF:0 ! FUNCTION GZNBCC 273.00 +2886.96-2.5104*T+GHSERZN#; 6000.00 N REF:0 ! FUNCTION GZRBCC 273.00 -525.539+124.9457*T-25.607406*T*LN(T) -3.40084E-4*T**2-9.7289735E-9*T**3-7.6142894E-11*T**4 +25233*T**(-1); 2128.00 Y -30705.955+264.284163*T-42.144*T*LN(T)+1.276058E+32*T**(-9); 6000.00 N REF:0 ! $$ $ fcc functions FUNCTION GCRFCC 273.00 +7284+0.163*T+GHSERCR#; 6000.00 N REF:0 ! FUNCTION GFEFCC 273.00 -1462.4+8.282*T-1.15*T*LN(T)+6.4E-04*T**2+GHSERFE#; 1811.00 Y -27098.266+300.25256*T-46*T*LN(T)+2.78854E+31*T**(-9); 6000.00 N REF:0 ! FUNCTION GMNFCC 273.00 -3439.3+131.884*T-24.5177*T*LN(T) -0.006*T**2+69600*T**(-1); 1519.00 Y -26070.1+309.6664*T-48*T*LN(T)+3.86196E+30*T**(-9); 2000.00 N REF:0 ! FUNCTION GSCFCC 273.00 -3689.547+153.48097*T-28.1882*T*LN(T)+0.00321892*T**2 -1.64531E-06*T**3+72177*T**(-1); 800.00 Y -2511.295+132.759582*T-24.9132*T*LN(T)-5.73295E-04*T**2 -8.59345E-07*T**3; 1600.00 Y +266143.04-1817.92245*T+241.441051*T*LN(T)-0.117529396*T**2+8.7398E-06*T**3 -50607159*T**(-1); 2000.00 Y -25515.246+286.474338*T-44.2249*T*LN(T); 3200.00 N REF:0 ! FUNCTION GTIFCC 273.00 +6000.0-0.1*T+GHSERTI#; 6000.00 N REF:0 ! FUNCTION GZNFCC 273.00 +2969.82-1.56968*T+GHSERZN#; 6000.00 N REF:0 ! $$ $ hcp functions FUNCTION GALHCP 273.00 +5481.0-1.8*T+GHSERAL#; 6000.00 N REF:0 ! FUNCTION GCRHCP 273.00 +4438.00+GHSERCR#; 6000.00 N REF:0 ! $$ $ other phase specific functions FUNCTION GCZBCC 273.00 +0.5*L0+2*P1+GCUBCC#+GZNBCC#; 6000.00 N REF:31 ! FUNCTION ETCFESI 273.00 +63; 6000.00 N REF:31 ! FUNCTION GCUMG2 273.00 -9540+0.862*T; 6000.00 N REF:43 ! FUNCTION GCU2MG 273.00 -9270-42.588*T+6.6537*T*LN(T)-0.005732*T**2; 6000.00 N REF:43 ! FUNCTION FESIW1 273.00 +1260*R; 6000.00 N REF:31 ! FUNCTION FSL0BCC 273.00 -27809+11.62*T; 6000.00 N REF:31 ! FUNCTION FSL1BCC 273.00 -11544; 6000.00 N REF:31 ! FUNCTION FSL2BCC 273.00 +3890; 6000.00 N REF:31 ! FUNCTION GNIMG2 273.00 -12763+10.531*T-1.5182*T*ln(T)+0.003107*T**2; 6000.00 N REF:43 ! FUNCTION GNI2MG 273.00 -17808+18.302*T-2.1683*T*ln(T)+0.001832*T**2; 6000.00 N REF:43 ! FUNCTION GZN2MG 273.00 -11682.7+3.5356*T; 6000.00 N REF:43 ! FUNCTION L0 273.00 -51595.87+13.06392*T; 6000.00 N REF:31 ! FUNCTION P1 273.00 -3085; 6000.00 N REF:31 ! FUNCTION R 273.00 +8.31451; 6000.00 N ! FUNCTION VPHA 270.00 -274527.45+13.0*T; 6000.00 N REF:31 ! $ $ Functions for ordered GP based on the modeling of Al-Li, $ Hallstedt et al., Int. J. Mater. Res. 98 (2007) 961-969. (pov) FUNCTION UFALMG 273.00 -500+0.45185*T; 6000.00 N REF:85 ! FUNCTION L0FALMG 273.00 +3305.25-2.4*T; 6000.00 N REF:85 ! FUNCTION L1FALMG 273.00 +56.25+0.025*T; 6000.00 N REF:85 ! FUNCTION L2FALMG 273.00 -325+0.16945*T; 6000.00 N REF:85 ! FUNCTION GFAL3MG 273.00 +3*UFALMG#; 6000.00 N REF:85 ! FUNCTION GFAL2MG2 273.00 +4*UFALMG#; 6000.00 N REF:85 ! FUNCTION GFALMG3 273.00 +3*UFALMG#; 6000.00 N REF:85 ! $ reciprocal parameter (pov) FUNCTION SFALMG 273.00 -1000+1*UFALMG#; 6000.00 N REF:85 ! $ interaction parameters for the disordered phase (pov) FUNCTION LDF0ALMG 273.00 +1*GFAL3MG#+1.5*GFAL2MG2#+1*GFALMG3# +1.5*SFALMG#+4*L0FALMG#; 6000.00 N REF:85 ! FUNCTION LDF1ALMG 273.00 +2*GFAL3MG#-2*GFALMG3#+4*L1FALMG#; 6000.00 N REF:85 ! FUNCTION LDF2ALMG 273.00 +1*GFAL3MG#-1.5*GFAL2MG2#+1*GFALMG3# -1.5*SFALMG#+4*L2FALMG#; 6000.00 N REF:85 ! $ FUNCTION UFALSI 273.00 -8000; 6000.00 N REF:85 ! FUNCTION L0FALSI 273.00 +1e-8; 6000.00 N REF:85 ! FUNCTION L1FALSI 273.00 +1e-8; 6000.00 N REF:85 ! FUNCTION L2FALSI 273.00 +1e-8; 6000.00 N REF:85 ! FUNCTION GFAL3SI 273.00 +3750+3*UFALSI#; 6000.00 N REF:85 ! FUNCTION GFAL2SI2 273.00 +4*UFALSI#; 6000.00 N REF:85 ! FUNCTION GFALSI3 273.00 +5000+3*UFALSI#; 6000.00 N REF:85 ! FUNCTION SFALSI 273.00 +UFALSI#; 6000.00 N REF:85 ! FUNCTION LDF0ALSI 273.00 +95691.09-0.09584*T+1*GFAL3SI# +1.5*GFAL2SI2#+1*GFALSI3#+1.5*SFALSI#; 6000.00 N REF:85 ! FUNCTION LDF1ALSI 273.00 +2500+2*GFAL3SI#-2*GFALSI3#; 6000.00 N REF:85 ! FUNCTION LDF2ALSI 273.00 -20735+1*GFAL3SI#-1.5*GFAL2SI2# +1*GFALSI3#-1.5*SFALSI#; 6000.00 N REF:85 ! $ FUNCTION UFSIMG 273.00 -16000; 6000.00 N REF:85 ! FUNCTION L0FSIMG 273.00 +2000; 6000.00 N REF:85 ! FUNCTION L1FSIMG 273.00 +1e-8; 6000.00 N REF:85 ! FUNCTION L2FSIMG 273.00 +1e-8; 6000.00 N REF:85 ! FUNCTION GFSI3MG 273.00 +2000+3*UFSIMG#; 6000.00 N REF:85 ! FUNCTION GFSI2MG2 273.00 +4*UFSIMG#; 6000.00 N REF:85 ! FUNCTION GFSIMG3 273.00 +3*UFSIMG#; 6000.00 N REF:85 ! FUNCTION SFSIMG 273.00 +UFSIMG#; 6000.00 N REF:85 ! FUNCTION LDF0SIMG 273.00 +200000+0.89361*T+1*GFSI3MG# +1.5*GFSI2MG2#+1*GFSIMG3#+1.5*SFSIMG#; 6000.00 N REF:85 ! FUNCTION LDF1SIMG 273.00 +2*GFSI3MG#-2*GFSIMG3#; 6000.00 N REF:85 ! FUNCTION LDF2SIMG 273.00 -24000+1*GFSI3MG#-1.5*GFSI2MG2# +1*GFSIMG3#-1.5*SFSIMG#; 6000.00 N REF:85 ! $ $ ternary parameters for GP_MAT modeling FUNCTION GFAL2MGSI 273.00 +2*UFALMG#+2*UFALSI#+UFSIMG#; 6000.00 N REF:85 ! FUNCTION GFSI2ALMG 273.00 +2*UFALSI#+2*UFSIMG#+UFALMG#; 6000.00 N REF:85 ! FUNCTION GFMG2ALSI 273.00 +2800+2*UFALMG#+2*UFSIMG#+UFALSI#; 6000.00 N REF:85 ! $ reciprocal parameter FUNCTION SFALMGSI 273.00 +0.5*UFALMG#+0.5*UFALSI#-0.5*UFSIMG#; 6000.00 N REF:85 ! $ $ Others $ FUNCTION GAL8CR5 273.00 +8*GHSERAL#+5*GHSERCR#-252507.8 +10.3963*T; 6000.00 N REF:69 ! FUNCTION GAL4CR 273.00 +4*GHSERAL#+GHSERCR#-79750+9.8532*T; 6000.00 N REF:69 ! $ $ to be optimized FUNCTION UNASS 273.00 +1e-8; 6000.00 N ! $ $*************************************************************************** $ $ Liquid functions $ $*************************************************************************** $ FUNCTION GSCLIQ 273.00 +6478.66+45.427539*T-10.7967803*T*LN(T)-20.636524E-3*T**2 +2.13106E-6*T**3-158106*T**(-1); 1608 Y -11832.111+275.871695*T-44.2249*T*LN(T); 6000 N REF:0 ! $ FUNCTION GZRLIQ 273.00 +18147.703-9.080762*T+1.6275E-22*T**7+GHSERZR#; 2128.00 Y +17804.649-8.91153*T+1.343E+31*T**(-9)+GHSERZR#; 6000.00 N REF:31 ! $*************************************************************************** $*************************************************************************** $ $ Thermodynamic descriptions of phases $ $*************************************************************************** $*************************************************************************** $ $########################################################################### $ THERMODYNAMIC DATA: LIQUID $########################################################################### $ PHASE LIQUID % 1 1.0 > Random substitutional model. >> 6 ! CONSTITUENT LIQUID : AL,CR,CU,FE,MG,MN,NI,SC,SI,TI,ZN,ZR : ! $ $--------------------------------------- $ LIQUID, elementary parameters $--------------------------------------- $ PARAMETER G(LIQUID,AL;0) 273.00 +11005.029-11.841867*T+7.934E-20*T**7+GHSERAL#; 700.00 Y +11005.03-11.841867*T+7.9337E-20*T**7+GHSERAL#; 933.47 Y +10482.382-11.253974*T+1.231E+28*T**(-9)+GHSERAL#; 2900.00 N REF:0 ! PARAMETER G(LIQUID,CR;0) 273.00 +24339.955-11.420225*T+2.37615E-21*T**7+GHSERCR#; 2180.00 Y +18409.36-8.563683*T+2.88526E+32*T**(-9)+GHSERCR#; 6000.00 N REF:0 ! PARAMETER G(LIQUID,CU;0) 273.00 +12964.736-9.511904*T-5.849E-21*T**7+GHSERCU#; 1357.77 Y +13495.481-9.922344*T-3.642E+29*T**(-9)+GHSERCU#; 3200.00 N REF:0 ! PARAMETER G(LIQUID,FE;0) 273.00 +12040.17-6.55843*T-3.6751551E-21*T**7+GHSERFE#; 1811.00 Y -10839.7+291.302*T-46*T*LN(T); 6000.00 N REF:21 ! PARAMETER G(LIQUID,MG;0) 273.00 +8202.243-8.83693*T+GHSERMG#-8.0176E-20*T**7; 923.00 Y +8690.316-9.392158*T+GHSERMG#-1.038192E+28*T**(-9); 6000.00 N REF:31 ! PARAMETER G(LIQUID,MN;0) 273.00 +17859.91-12.6208*T-4.419297E-21*T**7+GHSERMN#; 1519.00 Y +18739.51-13.2288*T-1.656847E+30*T**(-9)+GHSERMN#; 2000.00 N REF:0 ! PARAMETER G(LIQUID,NI;0) 273.00 +16414.686-9.397*T-3.82318E-21*T**7+GHSERNI#; 1728.00 Y +18290.88-10.537*T-1.12754E+31*T**(-9)+GHSERNI#; 3000.00 N REF:0 ! PARAMETER G(LIQUID,SC;0) 273.00 +GSCLIQ#; 3200.00 N REF:0 ! PARAMETER G(LIQUID,SI;0) 273.00 +50696.36-30.099439*T+2.0931E-21*T**7+GHSERSI#; 1687.00 Y +49828.165-29.559068*T+4.2037E+30*T**(-9)+GHSERSI#; 3600.00 N REF:0 ! PARAMETER G(LIQUID,TI;0) 273.00 +12194.415-6.980938*T+GHSERTI#; 1300.00 Y +368610.36-2620.999038*T+357.005867*T*LN(T) -155.262855E-3*T**2+12.254402E-6*T**3-65556856*T**(-1)+GHSERTI#; 1941.00 Y +104639.72-340.070171*T+40.9282461*T*LN(T) -8.204849E-3*T**2+0.304747E-6*T**3-36699805*T**(-1)+GHSERTI#; 4000.00 N REF:0 ! PARAMETER G(LIQUID,ZN;0) 273.00 -128.574+108.177079*T-23.701314*T*LN(T)-1.712034E-3*T**2 -1.264963E-6*T**3-358.958E-21*T**7; 692.68 Y -3620.391+161.608594*T-31.38*T*LN(T); 1700.00 N REF:31 ! PARAMETER G(LIQUID,ZR;0) 273.00 +GZRLIQ#; 6000.00 N REF:31 ! $ $--------------------------------------- $ LIQUID, binary interaction parameters $--------------------------------------- $ PARAMETER L(LIQUID,AL,CR;0) 273.00 -37139.1+2.0110*T; 6000.00 N REF:68 ! PARAMETER L(LIQUID,AL,CR;1) 273.00 -15698.7+7.4555*T; 6000.00 N REF:68 ! PARAMETER L(LIQUID,AL,CU;0) 273.00 -66054+8.363*T; 6000.00 N REF:78 ! PARAMETER L(LIQUID,AL,CU;1) 273.00 +32489-8.524*T; 6000.00 N REF:78 ! PARAMETER L(LIQUID,AL,CU;2) 273.00 +7420-10.702*T; 6000.00 N REF:78 ! PARAMETER L(LIQUID,AL,FE;0) 273.00 -91976.5+22.1314*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,AL,FE;1) 273.00 -5672.58+4.8728*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,AL,FE;2) 273.00 +121.9; 6000.00 N REF:31 ! PARAMETER L(LIQUID,AL,MG;0) 273.00 -12000.0+8.566*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,AL,MG;1) 273.00 +1894.0-3.000*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,AL,MG;2) 273.00 +2000.0; 6000.00 N REF:31 ! PARAMETER L(LIQUID,AL,MN;0) 273.00 -70584.9+28.22693*T; 6000.00 N REF:51 ! PARAMETER L(LIQUID,AL,MN;1) 273.00 -13293.5+9.82551*T; 6000.00 N REF:51 ! PARAMETER L(LIQUID,AL,NI;0) 273.00 -204000+42*T; 6000.00 N REF:pov09 ! PARAMETER L(LIQUID,AL,NI;1) 273.00 -10185.79+5.8714*T; 6000.00 N REF:28 ! PARAMETER L(LIQUID,AL,NI;2) 273.00 +81204.81-31.95713*T; 6000.00 N REF:28 ! PARAMETER L(LIQUID,AL,NI;3) 273.00 +4365.35-2.51632*T; 6000.00 N REF:28 ! PARAMETER L(LIQUID,AL,NI;4) 273.00 -22101.64+13.16341*T; 6000.00 N REF:28 ! PARAMETER L(LIQUID,AL,SC;0) 273.00 -155000+10*T; 6000.00 N REF:pov13 ! PARAMETER L(LIQUID,AL,SC;1) 273.00 +20000; 6000.00 N REF:pov13 ! PARAMETER L(LIQUID,AL,SC;2) 273.00 +15000; 6000.00 N REF:pov13 ! PARAMETER L(LIQUID,AL,SI;0) 273.00 -11340.1-1.23394*T; 6000.00 N REF:81 ! PARAMETER L(LIQUID,AL,SI;1) 273.00 -3530.93+1.35993*T; 6000.00 N REF:81 ! PARAMETER L(LIQUID,AL,SI;2) 273.00 +2265.39; 6000.00 N REF:81 ! PARAMETER L(LIQUID,AL,TI;0) 273.00 -118048+41.972*T; 6000.00 N REF:77 ! PARAMETER L(LIQUID,AL,TI;1) 273.00 -23613+19.704*T; 6000.00 N REF:77 ! PARAMETER L(LIQUID,AL,TI;2) 273.00 +34757-13.844*T; 6000.00 N REF:77 ! PARAMETER L(LIQUID,AL,ZN;0) 273.00 +10465.55-3.39259*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,AL,ZR;0) 273.00 -150000+45.7*T; 6000.00 N REF:83 ! PARAMETER L(LIQUID,AL,ZR;1) 273.00 -40000+23*T; 6000.00 N REF:83 ! PARAMETER L(LIQUID,AL,ZR;2) 273.00 +15750; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CR,CU;0) 273.00 +83730-105.12*T+10*T*ln(T); 6000.00 N REF:TURCH ! PARAMETER L(LIQUID,CR,CU;1) 273.00 -1371.45; 6000.00 N REF:TURCH ! PARAMETER L(LIQUID,CR,CU;2) 273.00 -1271.47; 6000.00 N REF:TURCH ! PARAMETER L(LIQUID,CR,FE;0) 273.00 -17737+7.996546*T; 6000.00 N REF:8 ! PARAMETER L(LIQUID,CR,FE;1) 273.00 -1331; 6000.00 N REF:8 ! PARAMETER L(LIQUID,CR,MG;0) 273.00 +94500.0; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CR,MG;1) 273.00 +12500.0; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CR,MN;0) 273.00 -15009+13.6587*T; 6000.00 N REF:8 ! PARAMETER L(LIQUID,CR,MN;1) 273.00 +504+0.9479*T; 6000.00 N REF:8 ! PARAMETER L(LIQUID,CR,NI;0) 273.00 +318-7.3318*T; 6000.00 N REF:3 ! PARAMETER L(LIQUID,CR,NI;1) 273.00 +16941-6.3696*T; 6000.00 N REF:3 ! PARAMETER L(LIQUID,CR,SI;0) 273.00 -128000+21.23883*T; 6000.00 N REF:82 ! PARAMETER L(LIQUID,CR,SI;1) 273.00 -50016.61+14.31913*T; 6000.00 N REF:82 ! PARAMETER L(LIQUID,CR,TI;0) 273.00 +5250; 6000.00 N REF:70 ! PARAMETER L(LIQUID,CR,TI;1) 273.00 +1500; 6000.00 N REF:70 ! PARAMETER L(LIQUID,CR,ZN;0) 273.00 +19000; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CR,ZN;1) 273.00 -1000; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CR,ZR;0) 273.00 -12971.34+1.20015*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CR,ZR;1) 273.00 +8025.96-0.74259*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CR,ZR;2) 273.00 -9984.87+.92383*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CU,FE;0) 273.00 +73316.72-142.79*T +15.82*T*ln(T); 6000.00 N REF:24 ! PARAMETER L(LIQUID,CU,FE;1) 273.00 +9100.15-5.94*T; 6000.00 N REF:24 ! PARAMETER L(LIQUID,CU,FE;2) 273.00 +2428.96; 6000.00 N REF:24 ! PARAMETER L(LIQUID,CU,FE;3) 273.00 -233.62; 6000.00 N REF:24 ! PARAMETER L(LIQUID,CU,MG;0) 273.00 -36984+4.7561*T; 6000.00 N REF:49 ! PARAMETER L(LIQUID,CU,MG;1) 273.00 -8191.29; 6000.00 N REF:49 ! PARAMETER L(LIQUID,CU,MN;0) 273.00 +1118.55-5.6225*T; 6000.00 N REF:26 ! PARAMETER L(LIQUID,CU,MN;1) 273.00 -10915.375; 6000.00 N REF:26 ! PARAMETER L(LIQUID,CU,NI;0) 273.00 +11760+1.084*T; 6000.00 N REF:45 ! PARAMETER L(LIQUID,CU,NI;1) 273.00 -1672; 6000.00 N REF:45 ! PARAMETER L(LIQUID,CU,SI;0) 273.00 -39688.86+14.27467*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CU,SI;1) 273.00 -49937.13+29.78960*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CU,SI;2) 273.00 -31810.16+18.00804*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CU,ZN;0) 273.00 -40695.54+12.65269*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CU,ZN;1) 273.00 +4402.72-6.55425*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CU,ZN;2) 273.00 +7818.10-3.25416*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CU,ZR;0) 273.00 -61685.53+11.29235*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CU,ZR;1) 273.00 -8830.66+5.04565*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,FE,MG;0) 273.00 +61343.0+1.5*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,FE,MG;1) 273.00 -2700.0; 6000.00 N REF:31 ! PARAMETER L(LIQUID,FE,MN;0) 273.00 -3950+0.489*T; 6000.00 N REF:6 ! PARAMETER L(LIQUID,FE,MN;1) 273.00 +1145; 6000.00 N REF:6 ! PARAMETER L(LIQUID,FE,NI;0) 273.00 -18378.86+6.03912*T; 6000.00 N REF:7 ! PARAMETER L(LIQUID,FE,NI;1) 273.00 +9228.1-3.54642*T; 6000.00 N REF:7 ! PARAMETER L(LIQUID,FE,SI;0) 273.00 -164435+41.977*T; 6000.00 N REF:11 ! PARAMETER L(LIQUID,FE,SI;1) 273.00 -21.523*T; 6000.00 N REF:11 ! PARAMETER L(LIQUID,FE,SI;2) 273.00 +5220+5.726*T; 6000.00 N REF:11 ! PARAMETER L(LIQUID,FE,SI;3) 273.00 -28955+26.275*T; 6000.00 N REF:11 ! PARAMETER L(LIQUID,FE,TI;0) 273.00 -71347+8.25*T; 6000.00 N REF:71 ! PARAMETER L(LIQUID,FE,TI;1) 273.00 +7434-4.5*T; 6000.00 N REF:71 ! PARAMETER L(LIQUID,FE,TI;2) 273.00 +12155+0.25*T; 6000.00 N REF:71 ! PARAMETER L(LIQUID,FE,ZN;0) 273.00 +58088-23.665*T; 6000.00 N REF:57 ! PARAMETER L(LIQUID,FE,ZN;1) 273.00 +92219-55.584*T; 6000.00 N REF:57 ! PARAMETER L(LIQUID,FE,ZN;2) 273.00 +13570; 6000.00 N REF:57 ! PARAMETER L(LIQUID,FE,ZR;0) 273.00 -2694.9; 6000.00 N REF:guo2008 ! PARAMETER L(LIQUID,FE,ZR;1) 273.00 -14727.8+12.2047*T; 6000.00 N REF:guo2008 ! PARAMETER L(LIQUID,FE,ZR;2) 273.00 -2694.9; 6000.00 N REF:guo2008 ! PARAMETER L(LIQUID,MG,MN;0) 273.00 +19125.0+12.5*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,MG,NI;0) 273.00 -50910+25.8*T; 6000.00 N REF:46 ! PARAMETER L(LIQUID,MG,NI;1) 273.00 -14990+13.248*T; 6000.00 N REF:46 ! PARAMETER L(LIQUID,MG,SI;0) 273.00 -67000+16.5*T-0.3*T*LN(T); 6000.00 N REF:pov21 ! PARAMETER L(LIQUID,MG,SI;1) 273.00 -10000; 6000.00 N REF:pov18 ! PARAMETER L(LIQUID,MG,SI;2) 273.00 +10000; 6000.00 N REF:pov14 ! PARAMETER L(LIQUID,MG,ZN;0) 273.00 -77729.24+680.52266*T -95*T*LN(T)+.04*T**2; 6000.00 N REF:31 ! PARAMETER L(LIQUID,MG,ZN;1) 273.00 +3674.72+0.57139*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,MG,ZN;2) 273.00 -1588.15; 6000.00 N REF:31 ! PARAMETER L(LIQUID,MG,ZR;0) 273.00 +14003.84+29.34205*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,MN,NI;0) 273.00 -85853+22.715*T; 6000.00 N REF:13 ! PARAMETER L(LIQUID,MN,NI;1) 273.00 -1620+4.902*T; 6000.00 N REF:13 ! PARAMETER L(LIQUID,MN,SI;0) 273.00 -139817+29.861*T; 6000.00 N REF:4 ! PARAMETER L(LIQUID,MN,SI;1) 273.00 -34917+3.205*T; 6000.00 N REF:4 ! PARAMETER L(LIQUID,MN,SI;2) 273.00 +46782-18.19*T; 6000.00 N REF:4 ! PARAMETER L(LIQUID,MN,SI;3) 273.00 +16168; 6000.00 N REF:4 ! PARAMETER L(LIQUID,MN,TI;0) 273.00 -34000+21.5*T; 6000.00 N REF:4 ! PARAMETER L(LIQUID,MN,TI;1) 273.00 +1400; 6000.00 N REF:4 ! PARAMETER L(LIQUID,MN,ZR;0) 273.00 -35187.553+2.6983563*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,MN,ZR;1) 273.00 -1305.986; 6000.00 N REF:31 ! PARAMETER L(LIQUID,MN,ZN;0) 273.00 -4666; 6000.00 N REF:13 ! PARAMETER L(LIQUID,MN,ZN;1) 273.00 +3500; 6000.00 N REF:pov13 ! PARAMETER L(LIQUID,NI,SI;0) 273.00 -210180+33.4*T; 6000.00 N REF:14 ! PARAMETER L(LIQUID,NI,SI;1) 273.00 -114200+20.34*T; 6000.00 N REF:14 ! PARAMETER L(LIQUID,NI,SI;3) 273.00 +116640-53.87*T; 6000.00 N REF:14 ! PARAMETER L(LIQUID,NI,TI;0) 273.00 -160562.9+44.15253*T; 6000.00 N REF:72 ! PARAMETER L(LIQUID,NI,TI;1) 273.00 -88542.4+44.63193*T; 6000.00 N REF:72 ! PARAMETER L(LIQUID,SI,TI;0) 273.00 -236700.05+15.8192*T; 6000.00 N REF:73 ! PARAMETER L(LIQUID,SI,TI;1) 273.00 +61500.59-4.92006*T; 6000.00 N REF:73 ! PARAMETER L(LIQUID,SI,TI;2) 273.00 +71711.81-5.73696*T; 6000.00 N REF:73 ! PARAMETER L(LIQUID,SI,TI;3) 273.00 -48695.02+3.8956*T; 6000.00 N REF:73 ! PARAMETER L(LIQUID,SI,ZN;0) 273.00 +7829.25; 6000.00 N REF:31 ! PARAMETER L(LIQUID,SI,ZN;1) 273.00 -3338.18; 6000.00 N REF:31 ! PARAMETER L(LIQUID,SI,ZN;2) 273.00 -891.33; 6000.00 N REF:31 ! PARAMETER L(LIQUID,SI,ZR;0) 273.00 -200000+15.2454*T; 6000.00 N REF:50 ! PARAMETER L(LIQUID,SI,ZR;1) 273.00 +10*T; 6000.00 N REF:50 ! $--------------------------------------- $ LIQUID, ternary interaction parameters $--------------------------------------- $ PARAMETER L(LIQUID,AL,CR,MG;0) 273.00 -30000; 6000.00 N REF:pov12 ! PARAMETER L(LIQUID,AL,CR,CU;0) 273.00 -30000; 6000.00 N REF:pov12 ! PARAMETER L(LIQUID,AL,CR,MN;0) 273.00 -240000; 6000.00 N REF:pov14 ! PARAMETER L(LIQUID,AL,CR,NI;0) 273.00 +16000; 6000.00 N REF:30 ! PARAMETER L(LIQUID,AL,CR,SI;0) 273.00 -73008+47.5147*T; 6000.00 N REF:69 ! PARAMETER L(LIQUID,AL,CR,SI;1) 273.00 +12338.1; 6000.00 N REF:69 ! PARAMETER L(LIQUID,AL,CR,SI;2) 273.00 +1e-8; 6000.00 N REF:69 ! PARAMETER L(LIQUID,AL,CU,MG;0) 273.00 -20000+20*T; 6000.00 N REF:pov14 ! PARAMETER L(LIQUID,AL,CU,MG;1) 273.00 +75000; 6000.00 N REF:pov14 ! PARAMETER L(LIQUID,AL,CU,MG;2) 273.00 +75000; 6000.00 N REF:pov14 ! PARAMETER L(LIQUID,AL,CU,MN;0) 273.00 +25000; 6000.00 N REF:pov14 ! PARAMETER L(LIQUID,AL,CU,SI;0) 273.00 +129758.274-152.551977*T; 6000.00 N REF:56 ! PARAMETER L(LIQUID,AL,CU,SI;1) 273.00 +154448.454-8.5615*T; 6000.00 N REF:56 ! PARAMETER L(LIQUID,AL,CU,SI;2) 273.00 -88726.6292+40*T; 6000.00 N REF:56 ! PARAMETER L(LIQUID,AL,CU,ZN;0) 273.00 +3.9176114E+04; 6000.00 N REF:31 ! PARAMETER L(LIQUID,AL,CU,ZN;1) 273.00 -1.3018411E+05; 6000.00 N REF:31 ! PARAMETER L(LIQUID,AL,CU,ZN;2) 273.00 +3.5855929E+04; 6000.00 N REF:31 ! PARAMETER L(LIQUID,AL,FE,MG;0) 273.00 -100000; 6000.00 N REF:52 ! PARAMETER L(LIQUID,AL,FE,MN;0) 273.00 -200000; 6000.00 N REF:52 ! PARAMETER L(LIQUID,AL,FE,NI;0) 273.00 -306100+180*T; 6000.00 N REF:33 ! PARAMETER L(LIQUID,AL,FE,NI;1) 273.00 +416900-120*T; 6000.00 N REF:33 ! PARAMETER L(LIQUID,AL,FE,NI;2) 273.00 +14790-6.7*T; 6000.00 N REF:33 ! PARAMETER L(LIQUID,AL,FE,SI;0) 273.00 -110000+100*T; 6000.00 N REF:76 ! PARAMETER L(LIQUID,AL,FE,ZR;0) 273.00 +136237.1-100.0341*T; 6000.00 N REF:guo2008 ! PARAMETER L(LIQUID,AL,FE,ZR;1) 273.00 -41661.8-43.2614*T; 6000.00 N REF:guo2008 ! PARAMETER L(LIQUID,AL,FE,ZR;2) 273.00 +143613.9+8.5*T; 6000.00 N REF:guo2008 ! PARAMETER L(LIQUID,AL,MG,MN;0) 273.00 +28000; 6000.00 N REF:51 ! PARAMETER L(LIQUID,AL,MG,MN;1) 273.00 +1e-8; 6000.00 N REF:51 ! PARAMETER L(LIQUID,AL,MG,MN;2) 273.00 +1e-8; 6000.00 N REF:51 ! PARAMETER L(LIQUID,AL,MG,SI;0) 273.00 +11882; 6000.00 N REF:34 ! PARAMETER L(LIQUID,AL,MG,SI;1) 273.00 -24207; 6000.00 N REF:34 ! PARAMETER L(LIQUID,AL,MG,SI;2) 273.00 -38223; 6000.00 N REF:34 ! PARAMETER L(LIQUID,AL,MG,ZN;0) 273.00 -11475.0+11.0*T; 6000.00 N REF:31 ! PARAMETER L(LIQUID,AL,MN,SI;0) 273.00 -72818; 6000.00 N REF:62 ! PARAMETER L(LIQUID,AL,MN,SI;1) 273.00 -16967; 6000.00 N REF:62 ! PARAMETER L(LIQUID,AL,MN,SI;2) 273.00 -55992; 6000.00 N REF:62 ! PARAMETER L(LIQUID,AL,NI,SI;0) 273.00 +133699.59; 6000.00 N REF:32 ! PARAMETER L(LIQUID,AL,NI,SI;1) 273.00 +102978.23; 6000.00 N REF:32 ! PARAMETER L(LIQUID,AL,NI,SI;2) 273.00 +1e-8; 6000.00 N REF:32 ! PARAMETER L(LIQUID,CR,CU,FE;0) 273.00 -115799+61.673*T; 6000.00 N REF:TURCH ! PARAMETER L(LIQUID,CR,CU,FE;1) 273.00 -89317+55.011*T; 6000.00 N REF:TURCH ! PARAMETER L(LIQUID,CR,CU,FE;2) 273.00 +116631-57.980*T; 6000.00 N REF:TURCH ! PARAMETER L(LIQUID,CR,CU,ZR;0) 273.00 +62531.693; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CR,CU,ZR;1) 273.00 +69059.941; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CR,CU,ZR;2) 273.00 -71432.45; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CR,FE,MN;0) 273.00 +2378; 6000.00 N REF:8 ! PARAMETER L(LIQUID,CR,FE,NI;0) 273.00 +140000-50*T; 6000.00 N REF:5 ! PARAMETER L(LIQUID,CR,FE,NI;1) 273.00 +100000-50*T; 6000.00 N REF:5 ! PARAMETER L(LIQUID,CR,FE,NI;2) 273.00 +80000-50*T; 6000.00 N REF:5 ! PARAMETER L(LIQUID,CR,FE,SI;0) 273.00 +60000-50*T; 6000.00 N REF:12 ! PARAMETER L(LIQUID,CR,FE,TI;0) 273.00 -90000; 6000.00 N REF:9 ! PARAMETER L(LIQUID,CR,FE,TI;1) 273.00 +70000; 6000.00 N REF:9 ! PARAMETER L(LIQUID,CR,FE,TI;2) 273.00 -90000; 6000.00 N REF:9 ! PARAMETER L(LIQUID,CU,FE,MN;0) 273.00 +241298-140*T; 6000.00 N REF:27 ! PARAMETER L(LIQUID,CU,FE,MN;1) 273.00 +82096-40*T; 6000.00 N REF:27 ! PARAMETER L(LIQUID,CU,FE,MN;2) 273.00 +25901.5-20*T; 6000.00 N REF:27 ! PARAMETER L(LIQUID,CU,FE,ZN;0) 273.00 +120000-95*T; 6000.00 N REF:57 ! PARAMETER L(LIQUID,CU,MG,SI;0) 273.00 +0.0001; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CU,MG,SI;1) 273.00 -141736; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CU,MG,SI;2) 273.00 +0.0001; 6000.00 N REF:31 ! PARAMETER L(LIQUID,CU,MN,SI;0) 273.00 +1e-8; 6000.00 N REF:79 ! PARAMETER L(LIQUID,CU,MN,SI;1) 273.00 -9731.5+10*T; 6000.00 N REF:79 ! PARAMETER L(LIQUID,CU,MN,SI;2) 273.00 -69731.5+10*T; 6000.00 N REF:79 ! PARAMETER L(LIQUID,FE,MG,SI;0) 273.00 +1E-10; 6000.00 N REF:pov09 ! PARAMETER L(LIQUID,FE,MN,NI;0) 273.00 +1E-7; 6000.00 N REF:9 ! PARAMETER L(LIQUID,FE,MN,SI;0) 273.00 -180473; 6000.00 N REF:18 ! PARAMETER L(LIQUID,FE,MN,SI;1) 273.00 -95027; 6000.00 N REF:18 ! PARAMETER L(LIQUID,FE,MN,SI;2) 273.00 +154386; 6000.00 N REF:18 ! PARAMETER L(LIQUID,FE,NI,SI;0) 273.00 +100000-50*T; 6000.00 N REF:12 ! PARAMETER L(LIQUID,FE,NI,SI;1) 273.00 +220000-50*T; 6000.00 N REF:12 ! PARAMETER L(LIQUID,FE,NI,SI;2) 273.00 -185000-50*T; 6000.00 N REF:12 ! PARAMETER L(LIQUID,FE,NI,TI;0) 273.00 -20000; 6000.00 N REF:9 ! PARAMETER L(LIQUID,FE,NI,TI;1) 273.00 -10000; 6000.00 N REF:9 ! PARAMETER L(LIQUID,FE,NI,TI;2) 273.00 -90000; 6000.00 N REF:9 ! PARAMETER L(LIQUID,NI,SI,TI;0) 273.00 +209110.64-113.87609*T; 6000.00 N REF:73 ! PARAMETER L(LIQUID,NI,SI,TI;1) 273.00 -266885.72+19.24687*T; 6000.00 N REF:73 ! PARAMETER L(LIQUID,NI,SI,TI;2) 273.00 +137143.46; 6000.00 N REF:73 ! $ $########################################################################### $ THERMODYNAMIC DATA: F C C _ A 1 $########################################################################### $ TYPE_DEFINITION ' GES A_P_D FCC_A1 MAGNETIC -3.0 0.28 ! PHASE FCC_A1 %' 2 1 1 > Al-Matrix phase, face-centered cubic >> 6 ! CONSTITUENT FCC_A1 : AL%,CR,CU,FE,MG,MN,NI,SC,SI,TI, ZN,ZR : VA : ! $ $-------------------------------------- $ FCC_A1, elementary parameters $------------------------------------- $ PARAMETER G(FCC_A1,AL:VA;0) 273.00 +GHSERAL#; 2900.00 N REF:0 ! PARAMETER G(FCC_A1,CR:VA;0) 273.00 +7284+0.163*T+GHSERCR#; 6000.00 N REF:0 ! PARAMETER G(FCC_A1,CU:VA;0) 273.00 +GHSERCU#; 3200.00 N REF:0 ! PARAMETER G(FCC_A1,FE:VA;0) 273.00 -1462.4+8.282*T-1.15*T*LN(T) +0.00064*T**2+GHSERFE#; 1811.00 Y -1713.815+0.94001*T+0.4925095E+31*T**(-9)+GHSERFE#; 6000.00 N REF:0 ! PARAMETER G(FCC_A1,MG:VA;0) 273.00 +2600-0.90*T+GHSERMG#; 6000.00 N REF:0 ! PARAMETER G(FCC_A1,MN:VA;0) 273.00 -3439.3+131.884*T-24.5177*T*LN(T) -0.006*T**2+69600*T**(-1); 1519.00 Y -26070.1+309.6664*T-48*T*LN(T)+3.86196E+30*T**(-9); 2000.00 N REF:22 ! PARAMETER G(FCC_A1,NI:VA;0) 273.00 +GHSERNI#; 3000.00 N REF:0 ! PARAMETER G(FCC_A1,SC:VA;0) 273.00 +GSCFCC#; 3600.00 N REF:0 ! PARAMETER G(FCC_A1,SI:VA;0) 273.00 +51000-21.8*T+GHSERSI#; 3600.00 N REF:0 ! PARAMETER G(FCC_A1,TI:VA;0) 273.00 +6000-0.1*T+GHSERTI#; 3000.00 N REF:0 ! PARAMETER G(FCC_A1,ZN:VA;0) 273.00 +2969.82-1.56968*T+GHSERZN#; 6000.00 N REF:0 ! PARAMETER G(FCC_A1,ZR:VA;0) 273.00 +7600.00-0.9*T+GHSERZR#; 6000.00 N REF:0 ! $ $-------------------------------------- $ FCC_A1, binary interaction parameters $-------------------------------------- $ PARAMETER L(FCC_A1,AL,CR:VA;0) 273.00 -49516.6+7.3288*T; 6000.00 N REF:68 ! PARAMETER L(FCC_A1,AL,CU:VA;0) 273.00 -53520+2*T; 6000.00 N REF:49 ! PARAMETER L(FCC_A1,AL,CU:VA;1) 273.00 +38590-2*T; 6000.00 N REF:49 ! PARAMETER L(FCC_A1,AL,CU:VA;2) 273.00 +1170; 6000.00 N REF:49 ! PARAMETER L(FCC_A1,AL,CU:VA;3) 273.00 +1e-8; 6000.00 N REF:49 ! PARAMETER L(FCC_A1,AL,FE:VA;0) 273.00 -76066.1+18.6758*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,AL,FE:VA;1) 273.00 +21167.4+1.3398*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,AL,MG:VA;0) 273.00 +1*LDF0ALMG#; 6000.00 N REF:85 ! PARAMETER L(FCC_A1,AL,MG:VA;1) 273.00 +1*LDF1ALMG#; 6000.00 N REF:85 ! PARAMETER L(FCC_A1,AL,MG:VA;2) 273.00 +1*LDF2ALMG#; 6000.00 N REF:85 ! PARAMETER L(FCC_A1,AL,MN:VA;0) 273.00 -69300+25.0000*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,AL,MN:VA;1) 273.00 +8800.0; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,AL,NI:VA;0) 273.00 -162407.750+16.212965*T; 6000.00 N REF:28 ! PARAMETER L(FCC_A1,AL,NI:VA;1) 273.00 +73417.798-34.914*T; 6000.00 N REF:28 ! PARAMETER L(FCC_A1,AL,NI:VA;2) 273.00 +33471.014-9.837*T; 6000.00 N REF:28 ! PARAMETER L(FCC_A1,AL,NI:VA;3) 273.00 -30758.010+10.253*T; 6000.00 N REF:28 ! PARAMETER L(FCC_A1,AL,SC:VA;0) 273.00 -110876; 6000.00 N REF:84 ! PARAMETER L(FCC_A1,AL,SI:VA;0) 273.00 +1*LDF0ALSI#; 6000.00 N REF:85 ! PARAMETER L(FCC_A1,AL,SI:VA;1) 273.00 +1*LDF1ALSI#; 6000.00 N REF:37 ! PARAMETER L(FCC_A1,AL,SI:VA;2) 273.00 +1*LDF2ALSI#; 6000.00 N REF:37 ! PARAMETER L(FCC_A1,AL,TI:VA;0) 273.00 -119185+40.723*T; 6000.00 N REF:77 ! PARAMETER L(FCC_A1,AL,ZN:VA;0) 273.00 +7297.48+0.47512*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,AL,ZN:VA;1) 273.00 +6612.88-4.59110*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,AL,ZN:VA;2) 273.00 -3097.19+3.30635*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,AL,ZR:VA;0) 273.00 -120000+30*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,AL,ZR:VA;1) 273.00 -10000; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,AL,ZR:VA;2) 273.00 +15000; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,CR,CU:VA;0) 273.00 +67800+6*T; 6000.00 N REF:TURCH ! PARAMETER L(FCC_A1,CR,FE:VA;0) 273.00 +10833-7.477*T; 6000.00 N REF:3 ! PARAMETER L(FCC_A1,CR,FE:VA;1) 273.00 +1410; 6000.00 N REF:3 ! PARAMETER L(FCC_A1,CR,MG:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,CR,MN:VA;0) 273.00 -19088+17.5423*T; 6000.00 N REF:8 ! PARAMETER L(FCC_A1,CR,NI:VA;0) 273.00 +8030-12.8801*T; 6000.00 N REF:3 ! PARAMETER L(FCC_A1,CR,NI:VA;1) 273.00 +33080-16.0362*T; 6000.00 N REF:3 ! PARAMETER L(FCC_A1,CR,SI:VA;0) 273.00 -122850+9.85457*T; 6000.00 N REF:17 ! PARAMETER L(FCC_A1,CR,SI:VA;1) 273.00 -49502+13.76967*T; 6000.00 N REF:17 ! PARAMETER L(FCC_A1,CR,TI:VA;0) 273.00 +66300.0-27.70*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,CR,ZN:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,CR,ZR:VA;0) 273.00 +20000.00; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,CU,FE:VA;0) 273.00 +48885.74-11.51*T; 6000.00 N REF:24 ! PARAMETER L(FCC_A1,CU,FE:VA;1) 273.00 +12687.16-8.01*T; 6000.00 N REF:24 ! PARAMETER L(FCC_A1,CU,FE:VA;2) 273.00 +4054.11; 6000.00 N REF:24 ! PARAMETER L(FCC_A1,CU,MG:VA;0) 273.00 -22279.28+5.868*T; 6000.00 N REF:49 ! PARAMETER L(FCC_A1,CU,MN:VA;0) 273.00 +20235.508-13.2437*T; 6000.00 N REF:26 ! PARAMETER L(FCC_A1,CU,MN:VA;1) 273.00 -12154.853+2.9399*T; 6000.00 N REF:26 ! PARAMETER L(FCC_A1,CU,MN:VA;2) 273.00 +1037.56; 6000.00 N REF:26 ! PARAMETER L(FCC_A1,CU,NI:VA;0) 273.00 +8047.72+3.42217*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,CU,NI:VA;1) 273.00 -2041.3+.99714*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,CU,SI:VA;0) 273.00 -34105.96-1.908*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,CU,ZN:VA;0) 273.00 -42803.75+10.02258*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,CU,ZN:VA;1) 273.00 +2936.39-3.05323*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,CU,ZN:VA;2) 273.00 +9034.20-5.39314*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,CU,ZR:VA;0) 273.00 +2233.0; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,FE,MG:VA;0) 273.00 +65200.0; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,FE,MN:VA;0) 273.00 -7762+3.86*T; 6000.00 N REF:6 ! PARAMETER L(FCC_A1,FE,MN:VA;1) 273.00 -259; 6000.00 N REF:6 ! PARAMETER L(FCC_A1,FE,NI:VA;0) 273.00 -12054.355+3.27413*T; 6000.00 N REF:7 ! PARAMETER L(FCC_A1,FE,NI:VA;1) 273.00 +11082.1315-4.45077*T; 6000.00 N REF:7 ! PARAMETER L(FCC_A1,FE,NI:VA;2) 273.00 -725.805174; 6000.00 N REF:7 ! PARAMETER L(FCC_A1,FE,SI:VA;0) 273.00 -125247.7+41.166*T; 6000.00 N REF:11 ! PARAMETER L(FCC_A1,FE,SI:VA;1) 273.00 -142707.6; 6000.00 N REF:11 ! PARAMETER L(FCC_A1,FE,SI:VA;2) 273.00 +89907.3; 6000.00 N REF:11 ! PARAMETER L(FCC_A1,FE,TI:VA;0) 273.00 -51136+10.4*T; 6000.00 N REF:74 ! PARAMETER L(FCC_A1,FE,TI:VA;1) 273.00 -1950-6*T; 6000.00 N REF:71 ! PARAMETER L(FCC_A1,FE,TI:VA;2) 273.00 +14875; 6000.00 N REF:71 ! PARAMETER L(FCC_A1,FE,ZN:VA;0) 273.00 +6935+4.212*T; 6000.00 N REF:57 ! PARAMETER L(FCC_A1,FE,ZN:VA;1) 273.00 +691; 6000.00 N REF:57 ! PARAMETER L(FCC_A1,FE,ZR:VA;0) 273.00 -16847.9-3.5611*T; 6000.00 N REF:guo2008 ! PARAMETER G(FCC_A1,MG,MN:VA;0) 273.00 +70000.0; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,MG,NI:VA;0) 273.00 +50000; 6000.00 N REF:46 ! PARAMETER L(FCC_A1,MG,SI:VA;0) 273.00 +1*LDF0SIMG#; 6000.00 N REF:85 ! PARAMETER L(FCC_A1,MG,SI:VA;1) 273.00 +1*LDF1SIMG#; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,MG,SI:VA;2) 273.00 +1*LDF2SIMG#; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,MG,ZN:VA;0) 273.00 -3056.82+5.63801*T; 6000.0 N REF:31 ! PARAMETER L(FCC_A1,MG,ZN:VA;1) 273.00 -3127.26+5.65563*T; 6000.0 N REF:31 ! PARAMETER L(FCC_A1,MG,ZR:VA;0) 273.00 +42063.55+1.01789*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,MG,ZR:VA;1) 273.00 -2885.9; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,MN,NI:VA;0) 273.00 -58173+10.5*T; 6000.00 N REF:9 ! PARAMETER L(FCC_A1,MN,NI:VA;1) 273.00 +6300; 6000.00 N REF:9 ! PARAMETER L(FCC_A1,MN,SI:VA;0) 273.00 -95600+2.94097*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,MN,SI:VA;1) 273.00 -7500; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,MN,TI:VA;0) 273.00 -26200+20*T; 6000.00 N REF:4 ! PARAMETER L(FCC_A1,MN,ZN:VA;0) 273.00 -9200; 6000.00 N REF:13 ! PARAMETER L(FCC_A1,MN,ZR:VA;0) 273.00 +20000.0; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,NI,SI:VA;0) 273.00 -200600+33.45*T; 6000.00 N REF:14 ! PARAMETER L(FCC_A1,NI,SI:VA;1) 273.00 -92460+12.78*T; 6000.00 N REF:14 ! PARAMETER L(FCC_A1,NI,TI:VA;0) 273.00 -154607.8+35.05609*T; 6000.00 N REF:72 ! PARAMETER L(FCC_A1,SI,TI:VA;0) 273.00 -275629+42.509*T; 6000.00 N REF:4 ! PARAMETER L(FCC_A1,SI,TI:VA;1) 273.00 +25025-2.002*T; 6000.00 N REF:4 ! PARAMETER L(FCC_A1,SI,TI:VA;2) 273.00 +83941-6.715*T; 6000.00 N REF:4 ! PARAMETER L(FCC_A1,SI,ZN:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,SI,ZR:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! $ $-------------------------------------- $ FCC_A1, ternary interaction parameters $-------------------------------------- $ PARAMETER L(FCC_A1,AL,CR,CU:VA;0) 273.00 +1e-6; 6000.00 N REF:pov12 ! PARAMETER L(FCC_A1,AL,CR,MG:VA;0) 273.00 +1e-6; 6000.00 N REF:pov12 ! PARAMETER L(FCC_A1,AL,CR,MN:VA;0) 273.00 -50000; 6000.00 N REF:pov14 ! PARAMETER L(FCC_A1,AL,CR,MN:VA;1) 273.00 +50000; 6000.00 N REF:pov14 ! PARAMETER L(FCC_A1,AL,CR,MN:VA;2) 273.00 +1e-8; 6000.00 N REF:pov14 ! PARAMETER L(FCC_A1,AL,CR,NI:VA;0) 273.00 +30300; 6000.00 N REF:30 ! PARAMETER L(FCC_A1,AL,CR,SI:VA;0) 273.00 +680751.6; 6000.00 N REF:69 ! PARAMETER L(FCC_A1,AL,CU,MG:VA;0) 273.00 +60000; 6000.00 N REF:49 ! PARAMETER L(FCC_A1,AL,CU,MG:VA;1) 273.00 +1e-8; 6000.00 N REF:49 ! PARAMETER L(FCC_A1,AL,CU,MG:VA;2) 273.00 +1e-8; 6000.00 N REF:49 ! PARAMETER L(FCC_A1,AL,CU,MN:VA;0) 273.00 +15000; 6000.00 N REF:pov14 ! PARAMETER L(FCC_A1,AL,CU,MN:VA;1) 273.00 +50000; 6000.00 N REF:pov14 ! PARAMETER L(FCC_A1,AL,CU,MN:VA;2) 273.00 +15000; 6000.00 N REF:pov14 ! PARAMETER L(FCC_A1,AL,CU,SI:VA;0) 273.00 +1e-8; 6000.00 N REF:56 ! PARAMETER L(FCC_A1,AL,CU,SI:VA;1) 273.00 +158203.819; 6000.00 N REF:56 ! PARAMETER L(FCC_A1,AL,CU,SI:VA;2) 273.00 +1e-8; 6000.00 N REF:56 ! PARAMETER L(FCC_A1,AL,CU,ZN:VA;0) 273.00 +7.2990788E+04; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,AL,CU,ZN:VA;1) 273.00 +1.6799927E+04; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,AL,CU,ZN:VA;2) 273.00 +5.9580949E+04; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,AL,FE,MN:VA;0) 273.00 +0.0001; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,AL,FE,MN:VA;1) 273.00 -63652; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,AL,FE,MN:VA;2) 273.00 -26753; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,AL,FE,NI:VA;0) 273.00 +1e-8; 6000.00 N REF:33 ! PARAMETER L(FCC_A1,AL,FE,NI:VA;1) 273.00 -77900; 6000.00 N REF:33 ! PARAMETER L(FCC_A1,AL,FE,NI:VA;2) 273.00 +58000; 6000.00 N REF:33 ! PARAMETER L(FCC_A1,AL,FE,SI:VA;0) 273.00 +1E-10; 6000.00 N REF:31 ! PARAMETER L(FCC_A1,CR,CU,FE:VA;0) 273.00 +1E-7; 6000.00 N REF:TURCH ! PARAMETER L(FCC_A1,CR,CU,FE:VA;1) 273.00 +1e-7; 6000.00 N REF:TURCH ! PARAMETER L(FCC_A1,CR,CU,FE:VA;2) 273.00 -29976+24.982*T; 6000.00 N REF:TURCH ! PARAMETER L(FCC_A1,CR,FE,MN:VA;0) 273.00 +6715-10.393*T; 6000.00 N REF:8 ! PARAMETER L(FCC_A1,CR,FE,NI:VA;0) 273.00 +10000-10*T; 6000.00 N REF:5 ! PARAMETER L(FCC_A1,CR,FE,NI:VA;1) 273.00 -6500; 6000.00 N REF:5 ! PARAMETER L(FCC_A1,CR,FE,NI:VA;2) 273.00 +48000; 6000.00 N REF:5 ! PARAMETER L(FCC_A1,CR,FE,SI:VA;0) 273.00 -77000; 6000.00 N REF:pov09 ! PARAMETER L(FCC_A1,CR,FE,TI:VA;0) 273.00 +1E-7; 6000.00 N REF:9 ! PARAMETER L(FCC_A1,CU,FE,MN:VA;0) 273.00 -60000+105*T; 6000.00 N REF:27 ! PARAMETER L(FCC_A1,CU,FE,MN:VA;1) 273.00 -121140+89*T; 6000.00 N REF:27 ! PARAMETER L(FCC_A1,CU,FE,MN:VA;2) 273.00 -160467+112*T; 6000.00 N REF:27 ! PARAMETER L(FCC_A1,CU,FE,NI:VA;0) 273.00 -73272+30.9*T; 6000.00 N REF:4 ! PARAMETER L(FCC_A1,CU,MN,SI:VA;0) 273.00 +72832.78-74.84*T; 6000.00 N REF:79 ! PARAMETER L(FCC_A1,FE,MN,SI:VA;0) 273.00 -56655-55.613*T; 6000.00 N REF:18 ! PARAMETER L(FCC_A1,FE,NI,SI:VA;0) 273.00 -40000; 6000.00 N REF:12 ! PARAMETER L(FCC_A1,FE,NI,SI:VA;1) 273.00 -80000; 6000.00 N REF:12 ! PARAMETER L(FCC_A1,FE,NI,SI:VA;2) 273.00 +1E-7; 6000.00 N REF:12 ! PARAMETER L(FCC_A1,FE,NI,TI:VA;0) 273.00 +1E-7; 6000.00 N REF:4 ! $ $-------------------------------------- $ FCC_A1, quaternary interaction parameters $-------------------------------------- $ PARAMETER L(FCC_A1,AL,CU,MG,NI:VA;0) 273.00 -50000; 6000.00 N REF:43 ! PARAMETER L(FCC_A1,AL,CU,MG,ZN:VA;0) 273.00 -15000; 6000.00 N REF:43 ! $ $-------------------------------------- $ FCC_A1, magnetic contribution $-------------------------------------- $ PARAMETER TC(FCC_A1,CR:VA;0) 273.00 -1109; 6000.00 N REF:3 ! PARAMETER BMAGN(FCC_A1,CR:VA;0) 273.00 -2.46; 6000.00 N REF:3 ! PARAMETER TC(FCC_A1,CR,NI:VA;0) 273.00 -3605; 6000.00 N REF:3 ! PARAMETER BMAGN(FCC_A1,CR,NI:VA;0) 273.00 -1.91; 6000.00 N REF:3 ! PARAMETER TC(FCC_A1,CU,NI:VA;0) 273.00 -935.5; 6000.00 N REF:31 ! PARAMETER TC(FCC_A1,CU,NI:VA;1) 273.00 -594.9; 6000.00 N REF:31 ! PARAMETER BMAGN(FCC_A1,CU,NI:VA;0) 273.00 +0.52; 6000.00 N REF:31 ! PARAMETER BMAGN(FCC_A1,CU,NI:VA;1) 273.00 -0.7316; 6000.00 N REF:31 ! PARAMETER BMAGN(FCC_A1,CU,NI:VA;2) 273.00 -0.3174; 6000.00 N REF:31 ! PARAMETER TC(FCC_A1,FE:VA;0) 273.00 -201; 6000.00 N REF:8 ! PARAMETER BMAGN(FCC_A1,FE:VA;0) 273.00 -2.1; 6000.00 N REF:8 ! PARAMETER TC(FCC_A1,FE,MN:VA;0) 273.00 -2282; 6000.00 N REF:31 ! PARAMETER TC(FCC_A1,FE,MN:VA;1) 273.00 -2068; 6000.00 N REF:31 ! PARAMETER TC(FCC_A1,FE,NI:VA;0) 273.00 +2133; 6000.00 N REF:7 ! PARAMETER TC(FCC_A1,FE,NI:VA;1) 273.00 -682; 6000.00 N REF:7 ! PARAMETER BMAGN(FCC_A1,FE,NI:VA;0) 273.00 +9.55; 6000.00 N REF:7 ! PARAMETER BMAGN(FCC_A1,FE,NI:VA;1) 273.00 +7.23; 6000.00 N REF:7 ! PARAMETER BMAGN(FCC_A1,FE,NI:VA;2) 273.00 +5.93; 6000.00 N REF:7 ! PARAMETER BMAGN(FCC_A1,FE,NI:VA;3) 273.00 +6.18; 6000.00 N REF:7 ! PARAMETER TC(FCC_A1,FE,MN,SI:VA;0) 273.00 +13854; 6000.00 N REF:18 ! PARAMETER TC(FCC_A1,MN:VA;0) 273.00 +540; 2000.00 N REF:0 ! PARAMETER BMAGN(FCC_A1,MN:VA;0) 273.00 +0.62; 2000.00 N REF:0 ! PARAMETER TC(FCC_A1,NI:VA;0) 273.00 +633; 6000.00 N REF:0 ! PARAMETER BMAGN(FCC_A1,NI:VA;0) 273.00 +0.52; 6000.00 N REF:0 ! $ PHASE FCCAL % 2 1 1 ! CONSTITUENT FCCAL : AL : VA : ! PARAMETER G(FCCAL,AL:VA;0) 273.00 GHSERAL#; 3600.00 N REF:0 ! $ PHASE FCCMG % 2 1 1 ! CONSTITUENT FCCMG : MG : VA : ! PARAMETER G(FCCMG,MG:VA;0) 273.00 +2600-0.90*T+GHSERMG#; 6000.00 N REF:0 ! $ PHASE FCCSI % 2 1 1 ! CONSTITUENT FCCSI : SI : VA : ! PARAMETER G(FCCSI,SI:VA;0) 273.00 +51000-21.8*T+GHSERSI#; 3600.00 N REF:0 ! $ $########################################################################### $ THERMODYNAMIC DATA: B C C _ A 2 $########################################################################### $ TYPE_DEFINITION & GES A_P_D BCC_A2 MAGNETIC -1.0 0.4 ! PHASE BCC_A2 %& 2 1 3 ! CONSTITUENT BCC_A2 : AL,CR,CU,FE%,MG,MN,NI,SC,SI,TI,ZN,ZR : VA : ! $ $-------------------------------------- $ BCC_A2, elementary parameters $-------------------------------------- $ PARAMETER G(BCC_A2,AL:VA;0) 273.00 +10083-4.813*T+GHSERAL#; 2900.00 N REF:0 ! PARAMETER G(BCC_A2,CR:VA;0) 273.00 +GHSERCR#; 6000.00 N REF:0 ! PARAMETER G(BCC_A2,CU:VA;0) 273.00 +4017-1.255*T+GHSERCU#; 3200.00 N REF:0 ! PARAMETER G(BCC_A2,FE:VA;0) 273.00 +GHSERFE#; 6000.00 N REF:0 ! PARAMETER G(BCC_A2,MG:VA;0) 273.00 +3100.00-2.1*T+GHSERMG#; 6000.00 N REF:0 ! PARAMETER G(BCC_A2,MN:VA;0) 273.00 +GMNBCC#; 6000.00 N REF:22 ! PARAMETER G(BCC_A2,NI:VA;0) 273.00 +8715.084-3.556*T+GHSERNI#; 3000.00 N REF:0 ! PARAMETER G(BCC_A2,SC:VA;0) 273.00 +GSCBCC#; 3600.00 N REF:0 ! PARAMETER G(BCC_A2,SI:VA;0) 273.00 +47000-22.5*T+GHSERSI#; 3600.00 N REF:0 ! PARAMETER G(BCC_A2,TI:VA;0) 273.00 +GTIBCC#; 6000.00 N REF:0 ! PARAMETER G(BCC_A2,ZN:VA;0) 273.00 +GZNBCC#; 6000.00 N REF:0 ! PARAMETER G(BCC_A2,ZR:VA;0) 273.00 +GZRBCC#; 6000.00 N REF:0 ! $-------------------------------------- $ BCC_A2, binary interaction parameters $-------------------------------------- $ PARAMETER L(BCC_A2,AL,CR:VA;0) 273.00 -58257.5+8.4407*T; 6000.00 N REF:68 ! PARAMETER L(BCC_A2,AL,CU:VA;0) 273.00 -73083+4.81*T; 6000.00 N REF:78 ! PARAMETER L(BCC_A2,AL,CU:VA;1) 273.00 +48345-7.216*T; 6000.00 N REF:78 ! PARAMETER L(BCC_A2,AL,FE:VA;0) 273.00 -122960+31.9888*T; 6000.00 N REF:33 ! PARAMETER L(BCC_A2,AL,FE:VA;1) 273.00 +3089.2; 6000.00 N REF:33 ! PARAMETER L(BCC_A2,AL,MG:VA;0) 273.00 +4971-3.5*T; 6000 N REF:61 ! PARAMETER L(BCC_A2,AL,MG:VA;1) 273.00 +900+.423*T; 6000 N REF:61 ! PARAMETER L(BCC_A2,AL,MG:VA;2) 273.00 +950; 6000 N REF:61 ! PARAMETER L(BCC_A2,AL,MN:VA;0) 273.00 -120077+52.851*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,AL,MN:VA;1) 273.00 -40652+29.2764*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,AL,NI:VA;0) 273.00 -80000; 6000.00 N REF:pov09 ! PARAMETER L(BCC_A2,AL,SC:VA;0) 273.00 -126984; 6000.00 N REF:84 ! PARAMETER L(BCC_A2,AL,SC:VA;1) 273.00 -41840; 6000.00 N REF:84 ! PARAMETER L(BCC_A2,AL,SI:VA;0) 273.00 -3423.91-0.09584*T; 6000.00 N REF:pov09 ! PARAMETER L(BCC_A2,AL,TI:VA;0) 273.00 -132903+39.961*T; 6000.00 N REF:77 ! PARAMETER L(BCC_A2,AL,TI:VA;1) 273.00 +4890; 6000.00 N REF:77 ! PARAMETER L(BCC_A2,AL,TI:VA;2) 273.00 +400; 6000.00 N REF:77 ! PARAMETER L(BCC_A2,AL,ZN:VA;0) 273.00 +1e-8; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,AL,ZR:VA;0) 273.00 -132000+30*T; 6000.00 N REF:83 ! PARAMETER L(BCC_A2,AL,ZR:VA;1) 273.00 -25000; 6000.00 N REF:83 ! PARAMETER L(BCC_A2,AL,ZR:VA;2) 273.00 +15000; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CR,CU:VA;0) 273.00 +77107.48; 6000.00 N REF:16 ! PARAMETER L(BCC_A2,CR,FE:VA;0) 273.00 +20500-9.68*T; 6000.00 N REF:3 ! PARAMETER L(BCC_A2,CR,MG:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CR,MN:VA;0) 273.00 -20328+18.7339*T; 6000.00 N REF:8 ! PARAMETER L(BCC_A2,CR,MN:VA;1) 273.00 -9162+4.4183*T; 6000.00 N REF:8 ! PARAMETER L(BCC_A2,CR,NI:VA;0) 273.00 +17170-11.8199*T; 6000.00 N REF:3 ! PARAMETER L(BCC_A2,CR,NI:VA;1) 273.00 +34418-11.8577*T; 6000.00 N REF:3 ! PARAMETER L(BCC_A2,CR,SI:VA;0) 273.00 -77309.9324+13.58981*T; 6000.00 N REF:82 ! PARAMETER L(BCC_A2,CR,SI:VA;1) 273.00 -53247.5616+13.58981*T; 6000.00 N REF:82 ! PARAMETER L(BCC_A2,CR,TI:VA;0) 273.00 +19100; 6000.00 N REF:4 ! PARAMETER L(BCC_A2,CR,TI:VA;1) 273.00 +5500; 6000.00 N REF:4 ! PARAMETER L(BCC_A2,CR,TI:VA;2) 273.00 +1750; 6000.00 N REF:4 ! PARAMETER L(BCC_A2,CR,ZN:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CR,ZR:VA;0) 273.00 +16555.47+4.92028*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CR,ZR:VA;1) 273.00 +11365.57; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CU,FE:VA;0) 273.00 +40146.22-4.91*T; 6000.00 N REF:24 ! PARAMETER L(BCC_A2,CU,MN:VA;0) 273.00 +18366.034-16.2210*T; 6000.00 N REF:26 ! PARAMETER L(BCC_A2,CU,MN:VA;1) 273.00 -12667.53; 6000.00 N REF:26 ! PARAMETER L(BCC_A2,CU,NI:VA;0) 273.00 +8047.72+3.42217*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CU,NI:VA;1) 273.00 -2041.3+.99714*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CU,SI:VA;0) 273.00 -21740+3.9*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CU,SI:VA;1) 273.00 -40000-4.39*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CU,SI:VA;2) 273.00 -100; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CU,ZN:VA;0) 273.00 -51595.88+13.064*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CU,ZN:VA;1) 273.00 +7562.12-6.45432*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CU,ZN:VA;2) 273.00 +30743.74-29.915*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CU,ZR:VA;0) 273.00 -7381.13; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,FE,MG:VA;0) 273.00 +65700.0; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,FE,MN:VA;0) 273.00 -2759+1.237*T; 6000.00 N REF:6 ! PARAMETER L(BCC_A2,FE,NI:VA;0) 273.00 -956.63-1.28726*T; 6000.00 N REF:7 ! PARAMETER L(BCC_A2,FE,NI:VA;1) 273.00 +1789.03-1.92912*T; 6000.00 N REF:7 ! PARAMETER L(BCC_A2,FE,SI:VA;0) 273.00 -111236+46.48*T; 6000.00 N REF:37 ! PARAMETER L(BCC_A2,FE,SI:VA;1) 273.00 +92352; 6000.00 N REF:37 ! PARAMETER L(BCC_A2,FE,SI:VA;2) 273.00 +62240; 6000.00 N REF:37 ! PARAMETER L(BCC_A2,FE,TI:VA;0) 273.00 -59098+11.5*T; 6000.00 N REF:71 ! PARAMETER L(BCC_A2,FE,TI:VA;1) 273.00 -1796+1*T; 6000.00 N REF:71 ! PARAMETER L(BCC_A2,FE,TI:VA;2) 273.00 +5602+3.5*T; 6000.00 N REF:71 ! PARAMETER L(BCC_A2,FE,ZN:VA;0) 273.00 -10494+18.299*T; 6000.00 N REF:57 ! PARAMETER L(BCC_A2,FE,ZN:VA;1) 273.00 +15513-12.608*T; 6000.00 N REF:57 ! PARAMETER L(BCC_A2,FE,ZR:VA;0) 273.00 -29828.6+6.7520*T; 6000.00 N REF:guo2008 ! PARAMETER L(BCC_A2,FE,ZR:VA;1) 273.00 -8461.5+6.4694*T; 6000.00 N REF:guo2008 ! PARAMETER L(BCC_A2,MG,MN:VA;0) 273.00 +70000.0; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,MG,NI:VA;0) 273.00 +50000; 6000.00 N REF:43 ! PARAMETER L(BCC_A2,MG,SC:VA;0) 273.00 -7113; 6000.00 N REF:84 ! PARAMETER L(BCC_A2,MG,SI:VA;0) 273.00 +1E-10; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,MG,ZN:VA;0) 273.00 -10000; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,MG,ZR:VA;0) 273.00 +5720.44+50.11642*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,MN,NI:VA;0) 273.00 -51785+3.5*T; 6000.00 N REF:9 ! PARAMETER L(BCC_A2,MN,NI:VA;1) 273.00 +6600; 6000.00 N REF:9 ! PARAMETER L(BCC_A2,MN,SI:VA;0) 273.00 -89620.7+2.94097*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,MN,SI:VA;1) 273.00 -7500; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,MN,TI:VA;0) 273.00 -23200+20*T; 6000.00 N REF:4 ! PARAMETER L(BCC_A2,MN,TI:VA;1) 273.00 -1000; 6000.00 N REF:4 ! PARAMETER L(BCC_A2,MN,ZN:VA;0) 273.00 -8200-0.75*T; 6000.00 N REF:13 ! PARAMETER L(BCC_A2,MN,ZR:VA;0) 273.00 -2135.3475-.13258*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,MN,ZR:VA;1) 273.00 -4084.; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,NI,SI:VA;0) 273.00 -205320+39.31*T; 6000.00 N REF:12 ! PARAMETER L(BCC_A2,NI,SI:VA;1) 273.00 -81520; 6000.00 N REF:12 ! PARAMETER L(BCC_A2,NI,TI:VA;0) 273.00 -58087.2; 6000.00 N REF:72 ! PARAMETER L(BCC_A2,SI,TI:VA;0) 273.00 -275629+42.509*T; 6000.00 N REF:4 ! PARAMETER L(BCC_A2,SI,TI:VA;1) 273.00 +25025-2.002*T; 6000.00 N REF:4 ! PARAMETER L(BCC_A2,SI,TI:VA;2) 273.00 +83941-6.715*T; 6000.00 N REF:4 ! PARAMETER L(BCC_A2,SI,ZN:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,SI,ZR:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! $ $------------------------------------- $ BCC_A2, ternary interaction parameters $-------------------------------------- $ PARAMETER L(BCC_A2,AL,CR,NI:VA;0) 273.00 +42500; 6000.00 N REF:30 ! PARAMETER L(BCC_A2,AL,CR,SI:VA;0) 273.00 +630000; 6000.00 N REF:69 ! PARAMETER L(BCC_A2,AL,CR,SI:VA;1) 273.00 +127000+21*T; 6000.00 N REF:69 ! PARAMETER L(BCC_A2,AL,CR,SI:VA;2) 273.00 +1e-8; 6000.00 N REF:69 ! PARAMETER L(BCC_A2,AL,CU,FE:VA;0) 273.00 -150000; 6000.00 N REF:pov14 ! PARAMETER L(BCC_A2,AL,CU,FE:VA;1) 273.00 +25000; 6000.00 N REF:pov14 ! PARAMETER L(BCC_A2,AL,CU,FE:VA;2) 273.00 -100000; 6000.00 N REF:pov14 ! PARAMETER L(BCC_A2,AL,CU,MN:VA;0) 273.00 -450000+350*T; 6000.00 N REF:pov14 ! PARAMETER L(BCC_A2,AL,CU,MN:VA;1) 273.00 +90000+30*T; 6000.00 N REF:pov14 ! PARAMETER L(BCC_A2,AL,CU,MN:VA;2) 273.00 +30000; 6000.00 N REF:pov14 ! PARAMETER L(BCC_A2,AL,CU,SI:VA;0) 273.00 +1e-8; 6000.00 N REF:56 ! PARAMETER L(BCC_A2,AL,CU,SI:VA;1) 273.00 +163000+30*T; 6000.00 N REF:56 ! PARAMETER L(BCC_A2,AL,CU,SI:VA;2) 273.00 +1e-8; 6000.00 N REF:56 ! PARAMETER L(BCC_A2,AL,CU,ZN:VA;0) 273.00 -3.00E+04; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,AL,CU,ZN:VA;1) 273.00 -1.00E+04; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,AL,CU,ZN:VA;2) 273.00 -1.00E+04; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,AL,FE,NI:VA;0) 273.00 -110700+34*T; 6000.00 N REF:33 ! PARAMETER L(BCC_A2,AL,FE,NI:VA;1) 273.00 -27000-1.1*T; 6000.00 N REF:33 ! PARAMETER L(BCC_A2,AL,FE,NI:VA;2) 273.00 -204500+107*T; 6000.00 N REF:33 ! PARAMETER L(BCC_A2,AL,FE,ZR:VA;0) 273.00 +1e-8; 6000.00 N REF:guo2008 ! PARAMETER L(BCC_A2,AL,FE,ZR:VA;1) 273.00 +70000; 6000.00 N REF:guo2008 ! PARAMETER L(BCC_A2,AL,FE,ZR:VA;2) 273.00 +1e-8; 6000.00 N REF:guo2008 ! PARAMETER L(BCC_A2,CR,CU,FE:VA;0) 273.00 +28629-41.552*T; 6000.00 N REF:TURCH ! PARAMETER L(BCC_A2,CR,CU,FE:VA;1) 273.00 +1e-7; 6000.00 N REF:TURCH ! PARAMETER L(BCC_A2,CR,CU,FE:VA;2) 273.00 +28629-41.552*T; 6000.00 N REF:TURCH ! PARAMETER L(BCC_A2,CR,CU,ZR:VA;0) 273.00 +80496.80; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CR,CU,ZR:VA;1) 273.00 +80496.80; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CR,CU,ZR:VA;2) 273.00 +42042.76; 6000.00 N REF:31 ! PARAMETER L(BCC_A2,CR,FE,MN:VA;0) 273.00 -5996; 6000.00 N REF:8 ! PARAMETER L(BCC_A2,CR,FE,NI:VA;0) 273.00 +6000+10*T; 6000.00 N REF:5 ! PARAMETER L(BCC_A2,CR,FE,NI:VA;1) 273.00 -18500+10*T; 6000.00 N REF:5 ! PARAMETER L(BCC_A2,CR,FE,NI:VA;2) 273.00 -27000+10*T; 6000.00 N REF:5 ! PARAMETER L(BCC_A2,CR,FE,SI:VA;0) 273.00 -54000; 6000.00 N REF:15 ! PARAMETER L(BCC_A2,CR,FE,TI:VA;0) 273.00 +1E-7; 6000.00 N REF:4 ! PARAMETER L(BCC_A2,CU,FE,MN:VA;0) 273.00 +20000+1.15*T; 6000.00 N REF:27 ! PARAMETER L(BCC_A2,CU,FE,MN:VA;1) 273.00 +20000+1.15*T; 6000.00 N REF:27 ! PARAMETER L(BCC_A2,CU,FE,MN:VA;2) 273.00 +20000+1.15*T; 6000.00 N REF:27 ! PARAMETER L(BCC_A2,CU,FE,NI:VA;0) 273.00 +1E-7; 6000.00 N REF:4 ! PARAMETER L(BCC_A2,FE,MN,SI:VA;0) 273.00 -97474; 6000.00 N REF:18 ! PARAMETER L(BCC_A2,FE,NI,SI:VA;0) 273.00 -57000; 6000.00 N REF:12 ! PARAMETER L(BCC_A2,FE,NI,SI:VA;1) 273.00 -70000; 6000.00 N REF:12 ! PARAMETER L(BCC_A2,FE,NI,SI:VA;2) 273.00 +1E-10; 6000.00 N REF:12 ! $ $-------------------------------------- $ BCC_A2, magnetic contribution $-------------------------------------- $ PARAMETER TC(BCC_A2,CR:VA;0) 273.00 -311.5; 6000.00 N REF:8 ! PARAMETER BMAGN(BCC_A2,CR:VA;0) 273.00 -0.008; 6000.00 N REF:0 ! PARAMETER TC(BCC_A2,FE:VA;0) 273.00 +1043; 6000.00 N REF:0 ! PARAMETER BMAGN(BCC_A2,FE:VA;0) 273.00 +2.22; 6000.00 N REF:0 ! PARAMETER TC(BCC_A2,MN:VA;0) 273.00 -580; 2000.00 N REF:8 ! PARAMETER BMAGN(BCC_A2,MN:VA;0) 273.00 -0.27; 2000.00 N REF:8 ! PARAMETER TC(BCC_A2,NI:VA;0) 273.00 +575; 6000.00 N REF:0 ! PARAMETER BMAGN(BCC_A2,NI:VA;0) 273.00 +0.85; 6000.00 N REF:0 ! PARAMETER TC(BCC_A2,AL,FE:VA;1) 273.00 +504; 6000.00 N REF:31 ! PARAMETER TC(BCC_A2,CR,FE:VA;0) 273.00 +1650; 6000.00 N REF:3 ! PARAMETER TC(BCC_A2,CR,FE:VA;1) 273.00 +550; 6000.00 N REF:3 ! PARAMETER BMAGN(BCC_A2,CR,FE:VA;0) 273.00 -0.85; 6000.00 N REF:8 ! PARAMETER TC(BCC_A2,CR,NI:VA;0) 273.00 +2373; 6000.00 N REF:3 ! PARAMETER TC(BCC_A2,CR,NI:VA;1) 273.00 +617; 6000.00 N REF:3 ! PARAMETER BMAGN(BCC_A2,CR,NI:VA;0) 273.00 +4; 6000.00 N REF:3 ! PARAMETER TC(BCC_A2,CU,FE:VA;0) 273.00 -41.4; 6000.00 N REF:23 ! PARAMETER TC(BCC_A2,FE,MN:VA;0) 273.00 +123; 6000.00 N REF:18 ! PARAMETER TC(BCC_A2,FE,SI:VA;1) 273.00 +8*ETCFESI#; 6000.00 N REF:10 ! $ $########################################################################### $ THERMODYNAMIC DATA: H C P _ A 3 $########################################################################### $ TYPE_DEFINITION ) GES A_P_D HCP_A3 MAGNETIC -3.0 0.28 ! PHASE HCP_A3 %) 2 1 .5 ! CONSTITUENT HCP_A3 : AL,CR,CU,FE,MG%,MN,NI,SC,SI,TI%, ZN,ZR : VA : ! $ $-------------------------------------- $ HCP_A3, elementary parameters $-------------------------------------- $ PARAMETER G(HCP_A3,AL:VA;0) 273.00 +5481-1.8*T+GHSERAL#; 2900.00 N REF:0 ! PARAMETER G(HCP_A3,CR:VA;0) 273.00 +4438+GHSERCR#; 6000.00 N REF:0 ! PARAMETER G(HCP_A3,CU:VA;0) 273.00 +600+0.2*T+GHSERCU#; 3200.00 N REF:0 ! PARAMETER G(HCP_A3,FE:VA;0) 273.00 -3705.78+12.591*T-1.15*T*LN(T) +0.00064*T**2+GHSERFE#; 1811.00 Y -3957.199+5.24951*T+0.49251E+31*T**(-9)+GHSERFE#; 6000.00 N REF:0 ! PARAMETER G(HCP_A3,MG:VA;0) 273.00 +GHSERMG#; 6000.00 N REF:0 ! PARAMETER G(HCP_A3,MN:VA;0) 273.00 -4439.3+133.007*T-24.5177*T*LN(T) -0.006*T**2+69600*T**(-1); 1519.00 Y -27070.1+310.7894*T-48*T*LN(T)+3.86196E+30*T**(-9); 2000.00 N REF:22 ! PARAMETER G(HCP_A3,NI:VA;0) 273.00 +1046+1.255*T+GHSERNI#; 3000.00 N REF:0 ! PARAMETER G(HCP_A3,SC:VA;0) 273.00 +GHSERSC#; 3600.00 N REF:0 ! PARAMETER G(HCP_A3,SI:VA;0) 273.00 +49200-20.8*T+GHSERSI#; 3600.00 N REF:0 ! PARAMETER G(HCP_A3,TI:VA;0) 273.00 +GHSERTI#; 4000.00 N REF:0 ! PARAMETER G(HCP_A3,ZN:VA;0) 273.00 +2970.0-1.57*T+GHSERZN#; 6000.00 N REF:0 ! PARAMETER G(HCP_A3,ZR:VA;0) 273.00 +GHSERZR#; 6000.00 N REF:0 ! $ $-------------------------------------- $ HCP_A3, binary interaction parameters $-------------------------------------- $ PARAMETER L(HCP_A3,AL,CR:VA;0) 273.00 -35000+6*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,AL,CU:VA;0) 273.00 -43225.5769+10*T; 6000.00 N REF:56 ! PARAMETER L(HCP_A3,AL,CU:VA;1) 273.00 +60000; 6000.00 N REF:56 ! PARAMETER L(HCP_A3,AL,MG:VA;0) 273.00 +4063.4-3.243*T; 6000.00 N REF:49 ! PARAMETER L(HCP_A3,AL,MG:VA;1) 273.00 -1642.1; 6000.00 N REF:49 ! PARAMETER L(HCP_A3,AL,MN:VA;0) 273.00 -108066+43.83*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,AL,MN:VA;1) 273.00 -54519.8+40*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,AL,SI:VA;0) 273.00 +4000; 6000.00 N REF:56 ! PARAMETER L(HCP_A3,AL,TI:VA;0) 273.00 -134164+37.863*T; 6000.00 N REF:77 ! PARAMETER L(HCP_A3,AL,TI:VA;1) 273.00 -3475+0.825*T; 6000.00 N REF:77 ! PARAMETER L(HCP_A3,AL,TI:VA;2) 273.00 -7756; 6000.00 N REF:77 ! PARAMETER L(HCP_A3,AL,ZN:VA;0) 273.00 +18820.95-8.95255*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,AL,ZN:VA;1) 273.00 +1.0E-10; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,AL,ZN:VA;2) 273.00 +1.0E-10; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,AL,ZN:VA;3) 273.00 -702.79; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,AL,ZR:VA;0) 273.00 -130500+31*T; 6000.00 N REF:83 ! PARAMETER L(HCP_A3,AL,ZR:VA;1) 273.00 -20000; 6000.00 N REF:83 ! PARAMETER L(HCP_A3,AL,ZR:VA;2) 273.00 +15000; 6000.00 N REF:83 ! PARAMETER L(HCP_A3,CR,CU:VA;0) 273.00 +60000; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,CR,FE:VA;0) 273.00 +10833-7.477*T; 6000.00 N REF:3 ! PARAMETER L(HCP_A3,CR,MG:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,CR,MN:VA;0) 273.00 -19088+17.5423*T; 6000.00 N REF:58 ! PARAMETER L(HCP_A3,CR,TI:VA;0) 273.00 +32500; 6000.00 N REF:70 ! PARAMETER L(HCP_A3,CR,ZN:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,CR,ZR:VA;0) 273.00 +15800.00; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,CU,FE:VA;0) 273.00 +48885.74-11.51*T; 6000.00 N REF:24 ! PARAMETER L(HCP_A3,CU,FE:VA;1) 273.00 +12687.16-8.01*T; 6000.00 N REF:24 ! PARAMETER L(HCP_A3,CU,FE:VA;2) 273.00 +4054.11; 6000.00 N REF:24 ! PARAMETER L(HCP_A3,CU,MN:VA;0) 273.00 +15000; 6000.00 N REF:pov14 ! PARAMETER L(HCP_A3,CU,MG:VA;0) 273.00 +80*T; 6000.00 N REF:49 ! PARAMETER L(HCP_A3,CU,NI:VA;0) 273.00 +8047.72+3.42217*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,CU,NI:VA;1) 273.00 -2041.3+.99714*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,CU,SI:VA;0) 273.00 -19948-2.356*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,CU,SI:VA;1) 273.00 -23800-1.97*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,CU,SI:VA;2) 273.00 -20; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,CU,ZN:VA;0) 273.00 -14432.17-10.7814*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,CU,ZR:VA;0) 273.00 +11336.85; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,FE,MG:VA;0) 273.00 +92400.0; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,FE,MN:VA;0) 273.00 -5582+3.865*T; 6000.00 N REF:6 ! PARAMETER L(HCP_A3,FE,MN:VA;1) 273.00 +273; 6000.00 N REF:6 ! PARAMETER L(HCP_A3,FE,NI:VA;0) 273.00 -12054.355+3.27413*T; 6000.00 N REF:7 ! PARAMETER L(HCP_A3,FE,NI:VA;1) 273.00 +11082-4.45077*T; 6000.00 N REF:7 ! PARAMETER L(HCP_A3,FE,NI:VA;2) 273.00 -725.8; 6000.00 N REF:7 ! PARAMETER L(HCP_A3,FE,SI:VA;0) 273.00 -123468+41.116*T; 6000.00 N REF:18 ! PARAMETER L(HCP_A3,FE,SI:VA;1) 273.00 -142708; 6000.00 N REF:18 ! PARAMETER L(HCP_A3,FE,TI:VA;0) 273.00 -28750+11*T; 6000.00 N REF:71 ! PARAMETER L(HCP_A3,FE,TI:VA;1) 273.00 -1700-6*T; 6000.00 N REF:71 ! PARAMETER L(HCP_A3,FE,TI:VA;2) 273.00 +15000; 6000.00 N REF:71 ! PARAMETER L(HCP_A3,FE,ZN:VA;0) 273.00 +50000; 6000.00 N REF:57 ! PARAMETER L(HCP_A3,FE,ZR:VA;0) 273.00 +5769.6; 6000.00 N REF:guo2008 ! PARAMETER L(HCP_A3,MG,MN:VA;0) 273.00 +32985.0+2.5*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,MG,NI:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,MG,SI:VA;0) 273.00 -7148.79+0.89361*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,MG,ZN:VA;0) 273.00 -3056.82+5.63801*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,MG,ZN:VA;1) 273.00 -3127.26+5.65563*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,MG,ZR:VA;0) 273.00 +42063.55+1.01789*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,MG,ZR:VA;1) 273.00 -2885.9; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,MN,ZN:VA;0) 273.00 -15000+3.9*T; 6000.00 N RE:86 ! PARAMETER L(HCP_A3,MN,ZN:VA;1) 273.00 +21000-9*T; 6000.00 N REF:86 ! PARAMETER L(HCP_A3,MN,ZR:VA;0) 273.00 +25000.0; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,SI,TI:VA;1) 273.00 -234045.13+51.80942*T; 6000.00 N REF:73 ! PARAMETER L(HCP_A3,SI,ZN:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,SI,ZR:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! $ $-------------------------------------- $ HCP_A3, ternary interaction parameters $-------------------------------------- $ PARAMETER L(HCP_A3,AL,CU,MN:VA;0) 273.00 -60000; 6000.00 N REF:pov14 ! PARAMETER L(HCP_A3,AL,CU,SI:VA;0) 273.00 -421279.357; 6000.00 N REF:56 ! PARAMETER L(HCP_A3,AL,CU,SI:VA;1) 273.00 -142450.864+160*T; 6000.00 N REF:56 ! PARAMETER L(HCP_A3,AL,CU,SI:VA;2) 273.00 +465976; 6000.00 N REF:56 ! PARAMETER L(HCP_A3,AL,CU,ZN:VA;0) 273.00 -15000; 6000.00 N REF:pov14 ! PARAMETER L(HCP_A3,AL,CU,ZN:VA;1) 273.00 -9000; 6000.00 N REF:pov14 ! PARAMETER L(HCP_A3,AL,CU,ZN:VA;2) 273.00 -15000; 6000.00 N REF:pov14 ! PARAMETER L(HCP_A3,AL,FE,ZR:VA;0) 273.00 +1e-8; 6000.00 N REF:guo2008 ! PARAMETER L(HCP_A3,AL,FE,ZR:VA;1) 273.00 +1e-8; 6000.00 N REF:guo2008 ! PARAMETER L(HCP_A3,AL,FE,ZR:VA;2) 273.00 +100000; 6000.00 N REF:guo2008 ! PARAMETER L(HCP_A3,AL,MG,ZN:VA;0) 273.00 +1E-4; 6000.00 N REF:31 ! PARAMETER L(HCP_A3,CU,MG,ZN:VA;0) 273.00 -60000; 6000.00 N REF:43 ! PARAMETER L(HCP_A3,CR,FE,MN:VA;0) 273.00 +34600; 6000.00 N REF:59 ! PARAMETER L(HCP_A3,FE,MN,SI:VA;0) 273.00 -24892-154.98*T; 6000.00 N REF:18 ! $ $-------------------------------------- $ HCP_A3, magnetic contribution $-------------------------------------- $ PARAMETER TC(HCP_A3,CR:VA;0) 273.00 -1109; 6000.00 N REF:3 ! PARAMETER BMAGN(HCP_A3,CR:VA;0) 273.00 -2.46; 6000.00 N REF:3 ! PARAMETER TC(HCP_A3,MN:VA;0) 273.00 +540; 2000.00 N REF:0 ! PARAMETER BMAGN(HCP_A3,MN:VA;0) 273.00 +0.62; 2000.00 N REF:0 ! PARAMETER TC(HCP_A3,NI:VA;0) 273.00 +633; 6000.00 N REF:0 ! PARAMETER BMAGN(HCP_A3,NI:VA;0) 273.00 +0.52; 6000.00 N REF:0 ! $ $########################################################################### $ THERMODYNAMIC DATA: H C P _ZN $########################################################################### $ PHASE HCP_ZN % 2 1 .5 ! CONSTITUENT HCP_ZN : AL,CR,CU,FE,MG,MN,SI,ZN% : VA : ! $ $-------------------------------------- $ HCP_ZN, elementary $-------------------------------------- $ PARAMETER G(HCP_ZN,AL:VA;0) 273.00 +5482-1.8*T+GHSERAL#; 6000.00 N REF:31 ! PARAMETER G(HCP_ZN,CR:VA;0) 273.00 +4439.00+GHSERCR#; 6000.00 N REF:31 ! PARAMETER G(HCP_ZN,CU:VA;0) 273.00 +600+.2*T+GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(HCP_ZN,FE:VA;0) 273.00 -3705.78+12.591*T-1.15*T*LN(T) +0.00064*T**2+GHSERFE#; 1811.00 Y -3957.199+5.24951*T+0.49251E+31*T**(-9)+GHSERFE#; 6000.00 N REF:0 ! PARAMETER G(HCP_ZN,MG:VA;0) 273.00 +100+GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(HCP_ZN,MN:VA;0) 273.00 -4439.3+133.007*T-24.5177*T*LN(T) -0.006*T**2+69600*T**(-1); 1519.00 Y -27070.1+310.7894*T-48*T*LN(T)+3.86196E+30*T**(-9); 2000.00 N REF:22 ! PARAMETER G(HCP_ZN,SI:VA;0) 273.00 +49201-20.8*T+GHSERSI#; 6000.00 N REF:31 ! PARAMETER G(HCP_ZN,ZN:VA;0) 273.00 +GHSERZN#; 6000.00 N REF:31 ! $ $-------------------------------------- $ HCP_ZN, binary interaction parameters $-------------------------------------- $ PARAMETER L(HCP_ZN,AL,MG:VA;0) 273.00 +1950-2*T; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,AL,MG:VA;1) 273.00 +1480-2.08*T; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,AL,MG:VA;2) 273.00 +3500; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,AL,ZN:VA;0) 273.00 +18820.95-8.95255*T; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,AL,ZN:VA;1) 273.00 +1.0E-6+1E-10*T; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,AL,ZN:VA;2) 273.00 +1.0E-6+1E-10*T; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,AL,ZN:VA;3) 273.00 -702.79+1E-10*T; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,CR,CU:VA;0) 273.00 +60000; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,CR,MG:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,CR,ZN:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,CU,FE:VA;0) 273.00 +50000; 6000.00 N REF:57 ! PARAMETER L(HCP_ZN,CU,MG:VA;0) 273.00 +10000; 6000.00 N REF:43 ! PARAMETER L(HCP_ZN,CU,SI:VA;0) 273.00 +0.0001; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,CU,ZN:VA;0) 273.00 -14432.17-10.7814*T; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,FE,ZN:VA;0) 273.00 +12786; 6000.00 N REF:57 ! PARAMETER L(HCP_ZN,MG,SI:VA;0) 273.00 +0.0001; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,MG,ZN:VA;0) 273.00 -3680+7.624*T; 6000.00 N REF:43 ! PARAMETER L(HCP_ZN,MG,ZN:VA;1) 273.00 -3823+8.026*T; 6000.00 N REF:43 ! PARAMETER L(HCP_ZN,MN,ZN:VA;0) 273.00 -15000+3.9*T; 6000.00 N REF:86 ! PARAMETER L(HCP_ZN,MN,ZN:VA;1) 273.00 +21000-9*T; 6000.00 N REF:86 ! PARAMETER L(HCP_ZN,SI,ZN:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! $ $-------------------------------------- $ HCP_ZN, ternary interaction parameters $-------------------------------------- $ PARAMETER L(HCP_ZN,AL,MG,ZN:VA;0) 273.00 +1E-4; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,CU,MG,SI:VA;0) 273.00 +50000; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,CU,MG,SI:VA;1) 273.00 +50000; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,CU,MG,SI:VA;2) 273.00 +50000; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,CU,MG,ZN:VA;0) 273.00 +50000; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,CU,MG,ZN:VA;1) 273.00 +50000; 6000.00 N REF:31 ! PARAMETER L(HCP_ZN,CU,MG,ZN:VA;2) 273.00 +50000; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CBCC_A12 $########################################################################### $ PHASE CBCC_A12 % 2 1 1 ! CONSTITUENT CBCC_A12 : AL,CR,CU,FE,MG,MN,SI,ZR : VA : ! $ PARAMETER G(CBCC_A12,AL:VA;0) 273.00 +10083.00-4.813*T+GHSERAL#; 6000.00 N REF:31 ! PARAMETER G(CBCC_A12,CR:VA;0) 273.00 +11087.0+2.7196*T+GHSERCR#; 6000.00 N REF:31 ! PARAMETER G(CBCC_A12,CU:VA;0) 273.00 +3556+GHSERCU#; 6000.00 N REF:26 ! PARAMETER G(CBCC_A12,FE:VA;0) 273.00 +4745+GHSERFE#; 6000.00 N REF:31 ! PARAMETER G(CBCC_A12,MG:VA;0) 273.00 +4602.4-3.011*T+GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(CBCC_A12,MN:VA;0) 273.00 +GHSERMN#; 6000.00 N REF:31 ! PARAMETER TC(CBCC_A12,MN:VA;0) 273.00 -285.00; 6000.00 N REF:31 ! PARAMETER BMAGN(CBCC_A12,MN:VA;0) 273.00 -0.66; 6000.00 N REF:31 ! PARAMETER G(CBCC_A12,SI:VA;0) 273.00 +50208.0-20.377*T+GHSERSI#; 6000.00 N REF:31 ! PARAMETER G(CBCC_A12,ZR:VA;0) 273.00 -3225.3947+125.64905*T-24.161800*T*LN(T) -0.43779100E-02*T**2+69827.1*T**(-1); 2128.00 Y -21483.721+262.72415*T-42.144000*T*LN(T)-0.13428950E+32*T**(-9); 3000.00 N REF:87 ! $ $---------------------------Interaction parameters---------------------- $ PARAMETER L(CBCC_A12,AL,MN:VA;0) 273.00 -63000+21*T; 6000.00 N REF:51 ! PARAMETER L(CBCC_A12,CR,MG:VA;0) 273.00 +80*T; 6000.00 N REF:31 ! PARAMETER L(CBCC_A12,CR,MN:VA;0) 273.00 -36796+20.385*T; 6000.00 N REF:31 ! PARAMETER L(CBCC_A12,CU,FE:VA;0) 273.00 +60000; 6000.00 N REF:27 ! PARAMETER L(CBCC_A12,CU,MN:VA;0) 273.00 -1000+26*T; 6000.00 N REF:27 ! PARAMETER L(CBCC_A12,FE,MG:VA;0) 273.00 +70000.0; 6000.00 N REF:31 ! PARAMETER L(CBCC_A12,FE,MN:VA;0) 273.00 -10184; 6000.00 N REF:6 ! PARAMETER L(CBCC_A12,FE,SI:VA;0) 273.00 -153141+46.48*T; 6000.00 N REF:18 ! PARAMETER L(CBCC_A12,FE,SI:VA;1) 273.00 -92352; 6000.00 N REF:18 ! PARAMETER L(CBCC_A12,FE,SI:VA;2) 273.00 +62240; 6000.00 N REF:18 ! PARAMETER L(CBCC_A12,MG,MN:VA;0) 273.00 +70000.0; 6000.00 N REF:31 ! PARAMETER L(CBCC_A12,MN,SI:VA;0) 273.00 -142743.62+22.3961*T; 6000.00 N REF:31 ! PARAMETER L(CBCC_A12,MN,SI:VA;1) 273.00 +16440.608-3.53*T; 6000.00 N REF:31 ! PARAMETER L(CBCC_A12,MN,ZR:VA;0) 273.00 +20000.000; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CUB_A13 $########################################################################### $ PHASE CUB_A13 % 2 1 1 ! CONSTITUENT CUB_A13 : AL,CR,CU,FE,MG,MN,SI,ZR : VA : ! PARAMETER G(CUB_A13,AL:VA;0) 273.00 +10920.44-4.8116*T+GHSERAL#; 6000.00 N REF:31 ! PARAMETER G(CUB_A13,CR:VA;0) 273.00 +15899.0+0.6276*T+GHSERCR#; 6000.00 N REF:31 ! PARAMETER G(CUB_A13,CU:VA;0) 273.00 +2092+GHSERCU#; 6000.00 N REF:26 ! PARAMETER G(CUB_A13,FE:VA;0) 273.00 +3745+GHSERFE#; 6000.00 N REF:31 ! PARAMETER G(CUB_A13,MG:VA;0) 273.00 +5000.0-3*T+GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(CUB_A13,MN:VA;0) 273.00 +2314.88+5.936*T-1.4203*T*LN(T) +1.51409E-03*T**2+442.0*T**(-1)+GHSERMN#; 1519.00 Y +442.65-0.9715*T+2.3107229E+30*T**(-9)+GHSERMN#; 6000.00 N REF:31 ! PARAMETER G(CUB_A13,SI:VA;0) 273.00 +47279.0-20.377*T+GHSERSI#; 6000.00 N REF:31 ! PARAMETER G(CUB_A13,ZR:VA;0) 273.00 -296.39500+125.64905*T-24.161800*T*LN(T) -0.43779100E-02*T**2+34971.000*T**(-1); 2128.00 Y -18554.721+262.72418*T-42.144000*T*LN(T)-0.13428950E+32*T**(-9); 6000.00 N REF:87 ! $ $---------------------------Interaction parameters---------------------- $ PARAMETER L(CUB_A13,AL,FE:VA;0) 273.00 -114000+20*T; 6000.00 N REF:31 ! PARAMETER L(CUB_A13,AL,MN:VA;0) 273.00 -118512.3+52.73979*T; 6000.00 N REF:51 ! PARAMETER L(CUB_A13,AL,MN:VA;1) 273.00 -3174.9; 6000.00 N REF:51 ! PARAMETER L(CUB_A13,CR,CU:VA;0) 273.00 +20000; 6000.00 N REF:pov12 ! PARAMETER L(CUB_A13,CR,MN:VA;0) 273.00 -31260+16.4919*T; 6000.00 N REF:31 ! PARAMETER L(CUB_A13,CU,FE:VA;0) 273.00 +80000+20*T; 6000.00 N REF:27 ! PARAMETER L(CUB_A13,CU,MN:VA;0) 273.00 +53000-10*T; 6000.00 N REF:27 ! PARAMETER L(CUB_A13,CU,MN:VA;1) 273.00 +13519.89; 6000.00 N REF:27 ! PARAMETER L(CUB_A13,FE,MG:VA;0) 273.00 +70000.0; 6000.00 N REF:31 ! PARAMETER L(CUB_A13,FE,MN:VA;0) 273.00 -11518+2.819*T; 6000.00 N REF:6 ! PARAMETER L(CUB_A13,FE,SI:VA;0) 273.00 -153141+46.48*T; 6000.00 N REF:18 ! PARAMETER L(CUB_A13,FE,SI:VA;1) 273.00 -92352; 6000.00 N REF:18 ! PARAMETER L(CUB_A13,FE,SI:VA;2) 273.00 +62240; 6000.00 N REF:18 ! PARAMETER L(CUB_A13,MG,MN:VA;0) 273.00 +70000.0; 6000.00 N REF:31 ! PARAMETER L(CUB_A13,MN,SI:VA;0) 273.00 -142343.62+21.89261*T; 6000.00 N REF:31 ! PARAMETER L(CUB_A13,MN,SI:VA;1) 273.00 +16440.608-3.53*T; 6000.00 N REF:31 ! PARAMETER L(CUB_A13,MN,ZR:VA;0) 273.00 +24000.000; 6000.00 N REF:31 ! PARAMETER L(CUB_A13,AL,CU,MN:VA;0) 273.00 -250000; 6000.00 N REF:pov14 ! PARAMETER L(CUB_A13,AL,CU,MN:VA;1) 273.00 -50000; 6000.00 N REF:pov14 ! PARAMETER L(CUB_A13,AL,CU,MN:VA;2) 273.00 +1e-8; 6000.00 N REF:pov14 ! PARAMETER L(CUB_A13,FE,MN,SI:VA;0) 273.00 -91507; 6000.00 N REF:53NEW ! $ $########################################################################### $ THERMODYNAMIC DATA: SI_DIAMOND_A4 $########################################################################### $ PHASE SI_DIAMOND_A4 % 1 1 > Silicon precipitate. Space group Fd3m, prototype: C(diamond) >> 4 ! CONSTITUENT SI_DIAMOND_A4 : AL,CR,MG,SI%,TI,ZN : ! PARAMETER G(SI_DIAMOND_A4,AL;0) 273.00 +10000+15*T+GHSERAL#; 6000.00 N REF:pov14 ! PARAMETER G(SI_DIAMOND_A4,CR;0) 273.00 +5000+GHSERCR#; 6000.00 N REF:69 ! PARAMETER G(SI_DIAMOND_A4,MG;0) 273.00 +GHSERMG#+100; 6000.00 N REF:pov14 ! PARAMETER G(SI_DIAMOND_A4,SI;0) 273.00 +GHSERSI#; 6000.00 N REF:0 ! PARAMETER G(SI_DIAMOND_A4,TI;0) 273.00 +25000+GHSERTI#; 6000.00 N REF:31 ! PARAMETER G(SI_DIAMOND_A4,ZN;0) 273.00 +30*T+GHSERZN#; 6000.00 N REF:31 ! PARAMETER L(SI_DIAMOND_A4,AL,SI;0) 273.00 +113246.16-47.5551*T; 6000.00 N REF:81 ! PARAMETER L(SI_DIAMOND_A4,MG,SI;0) 273.00 +65000; 6000.00 N REF:pov12 ! PARAMETER L(SI_DIAMOND_A4,SI,TI;0) 273.00 +80*T; 6000.00 N REF:31 ! PARAMETER L(SI_DIAMOND_A4,SI,ZN;0) 273.00 +100*T; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL4CR $########################################################################### $ PHASE AL4CR % 2 4 1 > Orthorhombic epsilon-phase. Potential precipitate in Cr-containing Al-alloys. [REF:C1] >> 2 ! CONSTITUENT AL4CR : AL%,SI : AL,CR%,CU,FE,MN : ! PARAMETER G(AL4CR,AL:AL;0) 273.00 +25868.2+5.0*GHSERAL#; 6000.00 N REF:68 ! PARAMETER G(AL4CR,AL:CR;0) 273.00 -75000+7*T +4.0*GHSERAL#+GHSERCR#; 6000.00 N REF:pov14 ! PARAMETER G(AL4CR,AL:CU;0) 273.00 +4.0*GHSERAL#+GHSERCU#; 6000.00 N REF:pov14 ! PARAMETER G(AL4CR,AL:FE;0) 273.00 -134000+50*T+4*GHSERAL# +GHSERFE#; 6000.00 N REF:pov14 ! PARAMETER G(AL4CR,AL:MN;0) 273.00 -99000+30*T+4*GHSERAL# +GHSERMN#; 6000.00 N REF:pov14 ! PARAMETER G(AL4CR,SI:AL;0) 273.00 +50000 +4.0*GHSERSI#+GHSERAL#; 6000.00 N REF:69 ! PARAMETER G(AL4CR,SI:CU;0) 273.00 +50000 +4.0*GHSERSI#+GHSERCU#; 6000.00 N REF:pov14 ! PARAMETER G(AL4CR,SI:CR;0) 273.00 +4*GHSERSI#+GHSERCR#; 6000.00 N REF:69 ! PARAMETER G(AL4CR,SI:FE;0) 273.00 +4*GHSERSI#+GHSERFE#; 6000.00 N REF:pov14 ! PARAMETER G(AL4CR,SI:MN;0) 273.00 +4*GHSERSI#+GHSERMN#; 6000.00 N REF:pov14 ! PARAMETER L(AL4CR,AL,SI:CR;0) 273.00 -76324.1+6.0128*T; 6000.00 N REF:69 ! PARAMETER L(AL4CR,AL,SI:CR;1) 273.00 -1530.8-10.1702*T; 6000.00 N REF:69 ! PARAMETER L(AL4CR,AL,SI:CR;2) 273.00 +1e-8; 6000.00 N REF:69 ! PARAMETER L(AL4CR,AL:AL,CR;0) 273.00 -71625+53.0030*T; 6000.00 N REF:68 ! PARAMETER L(AL4CR,AL:CR,FE;0) 273.00 +10000-30*T; 6000.00 N REF:pov14 ! PARAMETER L(AL4CR,AL:CR,CU;0) 273.00 -40000; 6000.00 N REF:pov14 ! PARAMETER L(AL4CR,AL:CR,MN;0) 273.00 -40000; 6000.00 N REF:pov14 ! PARAMETER L(AL4CR,AL:CR,MN;1) 273.00 +10000; 6000.00 N REF:pov14 ! PARAMETER L(AL4CR,AL:FE,MN;0) 273.00 +1e-8; 6000.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL11CR2 $########################################################################### $ PHASE AL11CR2 % 2 11 2 > Monoclinic eta-phase, high-temperatures equilibrium phase above 700°C - pontential dispersoid only after solution treatment at high temperatures. [REF:C3] >> 2 ! CONSTITUENT AL11CR2 : AL%,SI : AL,CR%,MN : ! PARAMETER G(AL11CR2,AL:AL;0) 273.00 +30000+13.0*GHSERAL#; 6000.00 N REF:68 ! PARAMETER G(AL11CR2,AL:CR;0) 273.00 -135000-6*T +11*GHSERAL#+2*GHSERCR#; 6000.00 N REF:pov14 ! PARAMETER G(AL11CR2,AL:MN;0) 273.00 +11*GHSERAL#+2*GHSERMN# -200000+75*T; 6000.00 N REF:pov14 ! PARAMETER G(AL11CR2,SI:AL;0) 273.00 +90985.5 +11*GHSERSI#+2*GHSERAL#; 6000.00 N REF:69 ! PARAMETER G(AL11CR2,SI:CR;0) 273.00 +65000 +11*GHSERSI#+2*GHSERCR#; 6000.00 N REF:69 ! PARAMETER L(AL11CR2,AL,SI:CR;0) 273.00 -67755.9+180.7592*T; 6000.00 N REF:69 ! PARAMETER L(AL11CR2,AL,SI:CR;1) 273.00 -55861.3+203.3824*T; 6000.00 N REF:69 ! PARAMETER L(AL11CR2,AL,SI:CR;2) 273.00 +1e-8; 6000.00 N REF:69 ! PARAMETER L(AL11CR2,AL:AL,CR;0) 273.00 +200000-200*T; 6000.00 N REF:pov14 ! PARAMETER G(AL11CR2,AL:CR,MN;0) 273.00 -225000+110*T; 6000.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL13CR2 $########################################################################### $ PHASE AL13CR2 % 2 6.85 1.05 > Common Cr-precipitate in 7xxx Al-alloys. Synonymous to Al7Cr; both are specific stoichiometries of equilibrium Al-Cr intermetallic phases with a composition range between 12.5 to 14 at.% Cr. Monoclinic, space group C2/m. [REFS:C1,C2] >> 3 ! CONSTITUENT AL13CR2 : AL : AL,CR%,CU,FE,MN : ! PARAMETER G(AL13CR2,AL:AL;0) 273.00 +24074.5 +7.9*GHSERAL#; 6000.00 N REF:68 ! PARAMETER G(AL13CR2,AL:CR;0) 273.00 -100000+22.5*T +6.85*GHSERAL#+1.05*GHSERCR#; 6000.00 N REF:68 ! PARAMETER G(AL13CR2,AL:CU;0) 273.00 -25000 +6.85*GHSERAL#+1.05*GHSERCU#; 6000.00 N REF:pov14 ! PARAMETER G(AL13CR2,AL:FE;0) 273.00 +10000 +6.85*GHSERAL#+1.05*GHSERFE#; 6000.00 N REF:pov14 ! PARAMETER G(AL13CR2,AL:MN;0) 273.00 +6.85*GHSERAL# +1.05*GHSERMN#-65000+24*T; 6000.00 N REF:pov14 ! PARAMETER L(AL13CR2,AL:AL,CR;0) 273.00 -21094.1+12.6986*T; 6000.00 N REF:68 ! PARAMETER L(AL13CR2,AL:CR,CU;0) 273.00 -50000+50*T; 6000.00 N REF:pov14 ! PARAMETER L(AL13CR2,AL:CR,FE;0) 273.00 -150000; 6000.00 N REF:pov14 ! PARAMETER L(AL13CR2,AL:AL,CR,FE;0) 273.00 -150000; 6000.00 N REF:pov14 ! PARAMETER L(AL13CR2,AL:CR,MN;0) 273.00 -160000+75*T; 6000.00 N REF:pov14 ! PARAMETER L(AL13CR2,AL:AL,MN;0) 273.00 -21094.1+12.6986*T; 6000.00 N REF:pov14 ! PARAMETER L(AL13CR2,AL:AL,CR,MN;0) 273.00 -50000; 6000.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALCRCU_TAU $########################################################################### $ PHASE ALCRCU_TAU % 3 16 3 1 > Quaternary extension Al16(Cr,Fe)3Cu of Al-Cr-Cu-type tau-phases [C45]. Precipitate observed in 7xxx Al-alloy. >> 3 ! CONSTITUENT ALCRCU_TAU : AL : CR,FE% : CU%,FE : ! PARAMETER G(ALCRCU_TAU,AL:CR:CU;0) 273.00 +16*GHSERAL#+3*GHSERCR# +GHSERCU#-330000+100*T; 6000.00 N REF:pov14 ! PARAMETER G(ALCRCU_TAU,AL:CR:FE;0) 273.00 +16*GHSERAL#+3*GHSERCR# +GHSERFE#-330000+100*T; 6000.00 N REF:pov14 ! PARAMETER G(ALCRCU_TAU,AL:FE:FE;0) 273.00 +16*GHSERAL#+3*GHSERFE# +GHSERFE#; 6000.00 N REF:pov14 ! PARAMETER G(ALCRCU_TAU,AL:FE:CU;0) 273.00 +16*GHSERAL#+3*GHSERFE# +GHSERCU#-468000+200*T; 6000.00 N REF:pov15 ! PARAMETER G(ALCRCU_TAU,AL:CR,FE:CU;0) 273.00 +200000-300*T; 6000.00 N REF:pov14 ! PARAMETER G(ALCRCU_TAU,AL:CR,FE:CU;1) 273.00 -200000+1000*T; 6000.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL18CR2MG3 $########################################################################### $ PHASE AL18CR2MG3 % 3 18 2 3 > E-phase, dispersoid in overaging regime in 7xxx Al-alloys [C42,C43]. Contains some Cu and Zn [C44] >> 3 ! CONSTITUENT AL18CR2MG3 : AL : CR%,MN : CU,MG%,ZN : ! PARAMETER G(AL18CR2MG3,AL:CR:CU;0) 273.00 18*GHSERAL#+2*GHSERCR#+3*GHSERCU# -310000+40*T; 6000.00 N REF:pov14 ! PARAMETER G(AL18CR2MG3,AL:MN:CU;0) 273.00 18*GHSERAL#+2*GHSERMN# +3*GHSERCU#; 6000.00 N REF:pov14 ! PARAMETER G(AL18CR2MG3,AL:CR:MG;0) 273.00 18*GHSERAL#+2*GHSERCR#+3*GHSERMG# -275000+60*T; 6000.00 N REF:pov14 ! PARAMETER G(AL18CR2MG3,AL:MN:MG;0) 273.00 18*GHSERAL#+2*GHSERMN#+3*GHSERMG# -220000+40*T; 6000.00 N REF:pov14 ! PARAMETER G(AL18CR2MG3,AL:CR:ZN;0) 273.00 18*GHSERAL#+2*GHSERCR#+3*GHSERZN# -235000+50*T; 6000.00 N REF:pov14 ! PARAMETER G(AL18CR2MG3,AL:MN:ZN;0) 273.00 18*GHSERAL#+2*GHSERMN# +3*GHSERZN#; 6000.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL9CR3SI $########################################################################### $ PHASE AL9CR3SI % 3 9 3 1 > Cubic dispersoid in 6xxx Al-alloys >> 2 ! CONSTITUENT AL9CR3SI : AL : CR : SI : ! PARAMETER G(AL9CR3SI,AL:CR:SI;0) 273.00 +9*GHSERAL#+3*GHSERCR# +GHSERSI#-258834.9+25.6494*T; 6000.00 N REF:69 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALCRSI_T3 $########################################################################### $ PHASE ALCRSI_T3 % 2 11 4 > Cubic dispersoid in 6xxx Al-alloys >> 2 ! CONSTITUENT ALCRSI_T3 : AL,SI : CR : ! PARAMETER G(ALCRSI_T3,AL:CR;0) 273.00 0.417*GAL8CR5#+1.917*GAL4CR# +18470.7; 6000.00 N REF:69 ! PARAMETER G(ALCRSI_T3,SI:CR;0) 273.00 4*GHSERCR#+11*GHSERSI# -20732.1; 6000.00 N REF:69 ! PARAMETER L(ALCRSI_T3,AL,SI:CR;0) 273.00 -473921.1+230.4174*T; 6000.00 N REF:69 ! PARAMETER L(ALCRSI_T3,AL,SI:CR;1) 273.00 -559720.9+90.6686*T; 6000.00 N REF:69 ! PARAMETER L(ALCRSI_T3,AL,SI:CR;2) 273.00 +1e-8; 6000.00 N REF:69 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL13CR4SI4 $########################################################################### $ PHASE AL13CR4SI4 % 3 13 4 4 > Cubic dispersoid in 6xxx Al-alloys >> 2 ! CONSTITUENT AL13CR4SI4 : AL : CR : SI : ! PARAMETER G(AL13CR4SI4,AL:CR:SI;0) 273.00 +4*GHSERCR#+13*GHSERAL# +4*GHSERSI#-437554.6+69.7236*T; 6000.00 N REF:69 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL58CR31SI11 $########################################################################### $ PHASE AL58CR31SI11 % 3 58 31 11 > Cubic dispersoid in 6xxx Al-alloys >> 2 ! CONSTITUENT AL58CR31SI11 : AL : CR : SI : ! PARAMETER G(AL58CR31SI11,AL:CR:SI;0) 273.00 58*GHSERAL#+31*GHSERCR# +11*GHSERSI#-1560841.1-388.2631*T; 6000.00 N REF:69 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL7CU2FE $########################################################################### $ PHASE AL7CU2FE % 3 7 2 1 > Tetragonal. Common precipitate in 2524 Al-alloys, observed also in 7075. [REFS:C4,C5] >> 3 ! CONSTITUENT AL7CU2FE : AL : CU : FE : ! PARAMETER G(AL7CU2FE,AL:CU:FE;0) 273.00 -240000+46*T +7*GHSERAL#+2*GHSERCU#+GHSERFE#; 6000.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL23CUFE4 $########################################################################### $ PHASE AL23CUFE4 % 3 23 1 4 > Precipitate observed in AA7xxx. >> 3 ! CONSTITUENT AL23CUFE4 : AL : CU : FE : ! PARAMETER G(AL23CUFE4,AL:CU:FE;0) 273.00 -635000+200*T +23*GHSERAL#+GHSERCU#+4*GHSERFE#; 6000.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALCUMN_T1 $########################################################################### $ PHASE ALCUMN_T1 % 3 20 3 4 > T1-phase with orthorhombic crystal structure, space group Bbmm or Cmcm. Crystallizes during casting of Cu-Mn containing 2xxx alloys and as rodlike dispersoids. Previously discribed as AL20CU2MN3 [REF:C5,C22,C23,C41], however experiments support stoichiometries close to Al20Cu3Mn4. >> 3 ! CONSTITUENT ALCUMN_T1 : AL : CU : MN : ! PARAMETER G(ALCUMN_T1,AL:CU:MN;0) 273.00 +20*GHSERAL#+3*GHSERCU# +4*GHSERMN#-555000+55*T; 6000.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL13FE4 $########################################################################### $ PHASE AL13FE4 % 3 0.6275 0.235 0.1375 > Monoclinic equilibrium phase, space group C2/m. Intermetallic particles observed in cast alloys. [REF:C16,C17] >> 2 ! CONSTITUENT AL13FE4 : AL : CR,FE%,MN,NI : AL,CU,SI,VA% : ! PARAMETER G(AL13FE4,AL:CR:AL;0) 273.00 -15000+5*T+0.765*GHSERAL# +0.235*GHSERCR#; 6000.00 N REF:pov14 ! PARAMETER G(AL13FE4,AL:CR:VA;0) 273.00 -15000+5*T+0.6275*GHSERAL# +0.235*GHSERCR#; 6000.00 N REF:pov14 ! PARAMETER G(AL13FE4,AL:FE:AL;0) 273.00 -30714.4+7.44*T+0.765*GHSERAL# +0.235*GHSERFE#; 6000.00 N REF:37 ! PARAMETER G(AL13FE4,AL:FE:CU;0) 273.00 -33000+10*T +0.6275*GHSERAL#+0.235*GHSERFE#+0.1375*GHSERCU#; 6000.00 N REF:pov14 ! PARAMETER G(AL13FE4,AL:FE:VA;0) 273.00 -27781.3+7.2566*T+0.6275*GHSERAL# +0.235*GHSERFE#; 6000.00 N REF:31 ! PARAMETER G(AL13FE4,AL:FE:AL,VA;0) 273.00 +1E-10; 6000.00 N REF:31 ! PARAMETER G(AL13FE4,AL:FE:SI;0) 273.00 -30733.7+8.5012*T +0.6275*GHSERAL#+0.235*GHSERFE#+0.1375*GHSERSI#; 6000.00 N REF:36 ! PARAMETER G(AL13FE4,AL:MN:AL;0) 273.00 -20000+10*T+0.765*GHSERAL# +0.235*GHSERMN#; 6000.00 N REF:31 ! PARAMETER G(AL13FE4,AL:MN:VA;0) 273.00 -17000+10*T+0.6275*GHSERAL# +0.235*GHSERMN#; 6000.00 N REF:31 ! PARAMETER G(AL13FE4,AL:NI:AL;0) 273.00 -32500+0.66*T+0.765*GHSERAL# +0.235*GHSERNI#; 6000.00 N REF:33 ! PARAMETER G(AL13FE4,AL:NI:VA;0) 273.00 -29100+0.6275*GHSERAL# +0.235*GHSERNI#; 6000.00 N REF:33 ! PARAMETER L(AL13FE4,AL:MN:AL,VA;0) 273.00 +1E-10; 6000.00 N REF:31 ! PARAMETER L(AL13FE4,AL:FE,MN:AL;0) 273.00 -11987+6*T; 6000.00 N REF:31 ! PARAMETER L(AL13FE4,AL:FE,MN:VA;0) 273.00 -11987+6*T; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALCRFEMNSI_A $########################################################################### $ PHASE ALCRFEMNSI_A % 4 16 4 1 2 > Cubic Alpha-AlCr(Fe)MnSi equilibrium phase with compositions close to Al9Mn2Si. Important dispersoid phase in Fe-, Cr-, Mn-containing Al-alloys. [REF:76] >> 4 ! CONSTITUENT ALCRFEMNSI_A : AL : CR,CU,FE%,MN% : SI : AL%,SI : ! PARAMETER G(ALCRFEMNSI_A,AL:MN:SI:AL;0) 273.00 -7.55772E+05+3.54443E+03*T -573.95*T*LN(T)-.114419*T**2+9.70013E-06*T**3+3716760*T**(-1); 6000.00 N REF:31 ! PARAMETER G(ALCRFEMNSI_A,AL:MN:SI:SI;0) 273.00 -6.98911E+05+2.9587E+03*T -493.779*T*LN(T)-.179049*T**2+1.87237E-05*T**3+1822810*T**(-1); 6000.00 N REF:31 ! PARAMETER G(ALCRFEMNSI_A,AL:MN:SI:AL,SI;0) 273.00 1.0E-4; 6000.00 N REF:31 ! PARAMETER G(ALCRFEMNSI_A,AL:FE:SI:SI;0) 273.00 +16*GHSERAL#+4*GHSERFE# +3*GHSERSI#-716300+320*T; 6000.00 N REF:76 ! PARAMETER G(ALCRFEMNSI_A,AL:FE:SI:AL;0) 273.00 +18*GHSERAL#+4*GHSERFE# +GHSERSI#-768000+402*T; 6000.00 N REF:pov13 ! $ $ Cr-containing end-members PARAMETER G(ALCRFEMNSI_A,AL:CR:SI:AL;0) 273.00 +18*GHSERAL#+4*GHSERCR# +GHSERSI#-250000+75*T; 6000.00 N REF:pov13 ! PARAMETER G(ALCRFEMNSI_A,AL:CR:SI:SI;0) 273.00 +16*GHSERAL#+4*GHSERCR# +3*GHSERSI#-250000+75*T; 6000.00 N REF:pov13 ! $ $ Cu-containing end-members PARAMETER G(ALCRFEMNSI_A,AL:CU:SI:AL;0) 273.00 +18*GHSERAL#+4*GHSERCU# +GHSERSI#-100000; 6000.00 N REF:pov13 ! PARAMETER G(ALCRFEMNSI_A,AL:CU:SI:SI;0) 273.00 +16*GHSERAL#+4*GHSERCU# +3*GHSERSI#-100000; 6000.00 N REF:pov13 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALFEMNSI_B $########################################################################### $ PHASE ALFEMNSI_B % 4 15 1 4 6 > Hexagonal Beta-Al(Fe)MnSi equilibrium phase, Al15Si1(Al,Si)4(Fe,Mn)6. Compositions significantly extending around (Al,Si)10Mn3. Important dispersoid phase in Fe-, Mn-containing Al-alloys. [REF:76] >> 3 ! CONSTITUENT ALFEMNSI_B : AL : SI : AL,SI : FE,MN : ! PARAMETER G(ALFEMNSI_B,AL:SI:AL:FE;0) 273.00 -557000 +19*GHSERAL#+6*GHSERFE#+GHSERSI#; 6000.00 N REF:76 ! PARAMETER G(ALFEMNSI_B,AL:SI:SI:FE;0) 273.00 -448114-164.3488*T +15*GHSERAL#+6*GHSERFE#+5*GHSERSI#; 6000.00 N REF:76 ! PARAMETER G(ALFEMNSI_B,AL:SI:AL:MN;0) 273.00 -679423+225.809*T +19*GHSERAL#+6*GHSERMN#+GHSERSI#; 6000.00 N REF:76 ! PARAMETER G(ALFEMNSI_B,AL:SI:SI:MN;0) 273.00 -570537+61.4602*T +15*GHSERAL#+6*GHSERMN#+5*GHSERSI#; 6000.00 N REF:76 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALFENI_T1 $########################################################################### $ PHASE ALFENI_T1 % 2 0.8182 0.1818 > Ternary compound Al9FeNi. Al9Co2-type monoclinic structure with 22 atoms per form,ula unit. Contributes to hardening, reported for alloy 2618, with a high thermal stability of particles up to 600°C. [REF:C19,C20,C21] >> 2 ! CONSTITUENT ALFENI_T1 : AL : FE,NI : ! PARAMETER G(ALFENI_T1,AL:FE;0) 273.00 -19900+1.9*T +0.8182*GHSERAL#+0.1818*GHSERFE#; 6000.00 N REF:33 ! PARAMETER G(ALFENI_T1,AL:NI;0) 273.00 -27100+0.88*T +0.8182*GHSERAL#+0.1818*GHSERNI#; 6000.00 N REF:33 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALFESI_T6 $########################################################################### $ PHASE ALFESI_T6 % 4 0.598 0.152 0.1 0.15 > Monoclinic AlFeSi-Beta phase, roughly given as Al5FeSi. Important dispersoid in Fe-containing Al-alloys >> 4 ! CONSTITUENT ALFESI_T6 : AL : CR,CU,FE,MN : SI : AL,SI : ! PARAMETER G(ALFESI_T6,AL:FE:SI:AL;0) 273.00 -19649+4.209*T+0.748*GHSERAL# +0.152*GHSERFE#+0.1*GHSERSI#; 6000.00 N REF:37 ! PARAMETER G(ALFESI_T6,AL:FE:SI:SI;0) 273.00 -22008+6.462*T+0.598*GHSERAL# +0.152*GHSERFE#+0.25*GHSERSI#; 6000.00 N REF:37 ! $ PARAMETER G(ALFESI_T6,AL:MN:SI:AL;0) 273.00 -12500 +0.598*GHSERAL#+0.152*GHSERMN#+0.25*GHSERSI#; 6000.00 N REF:pov13 ! PARAMETER G(ALFESI_T6,AL:MN:SI:SI;0) 273.00 -12500 +0.598*GHSERAL#+0.152*GHSERMN#+0.25*GHSERSI#; 6000.00 N REF:pov13 ! $ PARAMETER G(ALFESI_T6,AL:CU:SI:AL;0) 273.00 -1000+0.598*GHSERAL# +0.152*GHSERCU#+0.25*GHSERSI#; 6000.00 N REF:pov13 ! PARAMETER G(ALFESI_T6,AL:CU:SI:SI;0) 273.00 -1000+0.598*GHSERAL# +0.152*GHSERCU#+0.25*GHSERSI#; 6000.00 N REF:pov13 ! $ PARAMETER G(ALFESI_T6,AL:CR:SI:AL;0) 273.00 +0.598*GHSERAL# +0.152*GHSERCR#+0.25*GHSERSI#+500-10*T; 6000.00 N REF:pov13 ! PARAMETER G(ALFESI_T6,AL:CR:SI:SI;0) 273.00 +0.598*GHSERAL# +0.152*GHSERCR#+0.25*GHSERSI#+500-10*T; 6000.00 N REF:pov13 ! PARAMETER L(ALFESI_T6,AL:FE:SI:AL,SI;0) 273.00 -2821; 6000.00 N REF:37 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL12MN $########################################################################### $ PHASE AL12MN % 2 12 1 > Body-centered cubic. Occasionally observed metastable Mn-containing particles in aluminium alloyed with Mn. Example: Al-0.7at% Mn, ellipsoid to rod-like particle morphologies. [REF:C26] >> 2 ! CONSTITUENT AL12MN : AL : CR,FE,MN% : ! PARAMETER G(AL12MN,AL:CR;0) 273.00 -76500+12*GHSERAL# +GHSERCR#; 6000.00 N REF:pov14 ! PARAMETER G(AL12MN,AL:FE;0) 273.00 -105818+33.5848*T+12*GHSERAL# +GHSERFE#; 6000.00 N REF:31 ! PARAMETER G(AL12MN,AL:MN;0) 273.00 -125730+54.98103*T+12*GHSERAL# +GHSERMN#; 6000.00 N REF:31 ! PARAMETER L(AL12MN,AL:CR,MN;0) 273.00 -235000+250*T; 6000.00 N REF:pov14 ! PARAMETER L(AL12MN,AL:CR,MN;1) 273.00 +1e-8; 6000.00 N REF:pov14 ! PARAMETER L(AL12MN,AL:CR,MN;2) 273.00 +1e-8; 6000.00 N REF:pov14 ! PARAMETER L(AL12MN,AL:FE,MN;0) 273.00 +1e-8; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL3NI $########################################################################### $ PHASE AL3NI % 2 0.75 0.25 > Potential precipitate in Ni-containing Al-alloys. Simple description used >> 2 ! CONSTITUENT AL3NI : AL : FE,NI% : ! PARAMETER G(AL3NI,AL:NI;0) 273.00 -48483.73+12.29913*T +0.75*GHSERAL#+0.25*GHSERNI#; 6000.00 N REF:28 ! PARAMETER G(AL3NI,AL:FE;0) 273.00 -18560+0.75*GHSERAL# +0.25*GHSERFE#; 6000.00 N REF:33 ! $ $############################################################################# $ THERMODYNAMIC DATA: AL3SC $############################################################################# $ PHASE AL3SC % 2 3 1 > Ordered L12-type. Coherent, nano-scale precipitates in Sc-containing Al-alloys contribute to precipitation hardening. [REF:C28,C29] >> 3 ! CONSTITUENT AL3SC : AL : MG,SC%,ZR : ! PARAMETER G(AL3SC,AL:SC;0) 273.00 -168000+14.75*T+3*GHSERAL# +GHSERSC#; 6000.00 N REF:pov13 ! $ The next two parameters are preliminary!!! PARAMETER G(AL3SC,AL:MG;0) 273.00 +3*GHSERAL#+GHSERMG#; 6000.00 N REF:pov13 ! PARAMETER G(AL3SC,AL:ZR;0) 273.00 -150000+22.5*T+3*GHSERAL# +GHSERZR#; 6000.00 N REF:pov13 ! $ $############################################################################# $ THERMODYNAMIC DATA: ALSC $############################################################################# $ PHASE ALSC % 2 1 1 > >> 1 ! CONSTITUENT ALSC : AL : SC : ! PARAMETER G(ALSC,AL:SC;0) 273.00 -92000+0.5*T+GHSERAL#+GHSERSC#; 6000.00 N REF:pov13 ! $ $############################################################################# $ THERMODYNAMIC DATA: AL2SC $############################################################################# $ PHASE AL2SC % 2 2 1 > >> 1 ! CONSTITUENT AL2SC : AL : SC : ! PARAMETER G(AL2SC,AL:SC;0) 273.00 -144000+8.4*T+2*GHSERAL# +GHSERSC#; 6000.00 N REF:pov13 ! $ $############################################################################# $ THERMODYNAMIC DATA: SC2AL $############################################################################# $ PHASE SC2AL % 2 1 2 > >> 1 ! CONSTITUENT SC2AL : AL : SC : ! PARAMETER G(SC2AL,AL:SC;0) 273.00 -124500+GHSERAL#+2*GHSERSC#; 6000.00 N REF:pov13 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL3TI_H $########################################################################### $ PHASE AL3TI_H % 2 3 1 > Tetragonal high temperature modification with space group I4/mmm. >> 2 ! CONSTITUENT AL3TI_H : AL%,TI : AL,TI% : ! PARAMETER G(AL3TI_H,AL:AL;0) 273.00 +80000+4*GHSERAL#; 6000.00 N REF:77 ! PARAMETER G(AL3TI_H,TI:TI;0) 273.00 +80000+4*GHSERTI#; 6000.00 N REF:77 ! PARAMETER G(AL3TI_H,AL:TI;0) 273.00 -143733+35.088*T +3*GHSERAL#+GHSERTI#; 6000.00 N REF:77 ! PARAMETER G(AL3TI_H,TI:AL;0) 273.00 -72097+3*GHSERTI#+GHSERAL#; 6000.00 N REF:77 ! PARAMETER L(AL3TI_H,AL,TI:AL;0) 273.00 -67583; 6000.00 N REF:77 ! PARAMETER L(AL3TI_H,AL:AL,TI;0) 273.00 -67583; 6000.00 N REF:77 ! PARAMETER L(AL3TI_H,AL,TI:TI;0) 273.00 -93086; 6000.00 N REF:77 ! PARAMETER L(AL3TI_H,TI:AL,TI;0) 273.00 -93086; 6000.00 N REF:77 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL3TI_L $########################################################################### $ PHASE AL3TI_L % 2 3 1 > Tetragonal low-temperature modification, space group I4/mmm. >> 2 ! CONSTITUENT AL3TI_L : AL%,TI : AL,TI% : ! PARAMETER G(AL3TI_L,AL:AL;0) 273.00 +80000+4*GHSERAL#; 6000.00 N REF:77 ! PARAMETER G(AL3TI_L,TI:TI;0) 273.00 +80000+4*GHSERTI#; 6000.00 N REF:77 ! PARAMETER G(AL3TI_L,AL:TI;0) 273.00 -147620+38.395*T +3*GHSERAL#+GHSERTI#; 6000.00 N REF:77 ! PARAMETER G(AL3TI_L,TI:AL;0) 273.00 -53950+3*GHSERTI#+GHSERAL#; 6000.00 N REF:77 ! PARAMETER L(AL3TI_L,AL,TI:AL;0) 273.00 -79752+26.614*T; 6000.00 N REF:77 ! PARAMETER L(AL3TI_L,AL:AL,TI;0) 273.00 -79752+26.614*T; 6000.00 N REF:77 ! PARAMETER L(AL3TI_L,AL,TI:TI;0) 273.00 -118520; 6000.00 N REF:77 ! PARAMETER L(AL3TI_L,TI:AL,TI;0) 273.00 -118520; 6000.00 N REF:77 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL3ZR $########################################################################### $ PHASE AL3ZR % 2 0.75 0.25 > tetragonal ordered D023 structure, Pd3Mn type. Coherent, nano-scale precipitates in Zr-Sc-containing Al-alloys contribute to precipitation hardening. [REF:C28,C30] >> 3 ! CONSTITUENT AL3ZR : AL : CU,FE,SC,ZR% : ! PARAMETER G(AL3ZR,AL:CU;0) 273.00 +0.75*GHSERAL# +0.25*GHSERCU#-5000; 6000.00 N REF:pov15 ! $ The next parameter is preliminary!! PARAMETER G(AL3ZR,AL:FE;0) 273.00 +0.75*GHSERAL# +0.25*GHSERFE#; 6000.00 N REF:guo2008 ! PARAMETER G(AL3ZR,AL:SC;0) 273.00 -28000+0.75*GHSERAL# +0.25*GHSERSC#; 6000.00 N REF:pov13 ! PARAMETER G(AL3ZR,AL:ZR;0) 273.00 -43299+8.8*T+0.75*GHSERAL# +0.25*GHSERZR#; 6000.00 N REF:83 ! PARAMETER L(AL3ZR,AL:CU,ZR;0) 273.00 -4000; 6000.00 N REF:pov15 ! $ $########################################################################### $ THERMODYNAMIC DATA: LC14_ZN2MG $########################################################################### $ PHASE LC14_ZN2MG % 2 2 1 > Mg-Zn Laves-Phase with hexagonal C14 structure. Equilibrium precipitate in the overaging regime of AA7xxx alloys. >> 3 ! CONSTITUENT LC14_ZN2MG : AL,CU,MG,NI,ZN% : AL,CU,MG,NI,ZN : ! PARAM G(LC14_ZN2MG,ZN:MG;0) 273.00 +1*GHSERMG#+2*GHSERZN# -36500+11*T; 6000.00 N REF:pov12 ! PARAMETER G(LC14_ZN2MG,AL:AL;0) 273.00 +3*GHSERAL#+15000; 6000.00 N REF:40 ! PARAMETER G(LC14_ZN2MG,CU:CU;0) 273.00 +3*GHSERCU#+15000; 6000.00 N REF:pov12 ! PARAMETER G(LC14_ZN2MG,MG:MG;0) 273.00 +3*GHSERMG#+15000; 6000.00 N REF:40 ! PARAMETER G(LC14_ZN2MG,NI:NI;0) 273.00 +3*GHSERNI#+15000; 6000.00 N REF:pov12 ! PARAMETER G(LC14_ZN2MG,ZN:ZN;0) 273.00 +3*GHSERZN#+15000; 6000.00 N REF:40 ! PARAMETER G(LC14_ZN2MG,AL:MG;0) 273.00 +2*GHSERAL#+1*GHSERMG# +12671.6+16.8*T; 6000.00 N REF:40 ! PARAMETER G(LC14_ZN2MG,AL:ZN;0) 273.00 +2*GHSERAL#+1*GHSERZN# +15000; 6000.00 N REF:40 ! PARAMETER G(LC14_ZN2MG,MG:AL;0) 273.00 +2*GHSERMG#+1*GHSERAL# +37329-16.8*T; 6000.00 N REF:40 ! PARAMETER G(LC14_ZN2MG,MG:ZN;0) 273.00 +2*GHSERMG#+1*GHSERZN# +65355-8.83887*T; 6000.00 N REF:40 ! PARAMETER G(LC14_ZN2MG,ZN:AL;0) 273.00 +2*GHSERZN#+1*GHSERAL# +15000; 6000.00 N REF:40 ! PARAMETER G(LC14_ZN2MG,CU:MG;0) 273.00 +1*GHSERMG#+2*GHSERCU#+3*GCU2MG# +15000; 6000.00 N REF:43 ! PARAMETER G(LC14_ZN2MG,NI:MG;0) 273.00 +1*GHSERMG#+2*GHSERNI#+3*GNI2MG# +15000; 6000.00 N REF:43 ! PARAMETER G(LC14_ZN2MG,MG:CU;0) 273.00 +2*GHSERMG#+1*GHSERCU#+3*GCUMG2# +15000; 6000.00 N REF:pov12 ! PARAMETER G(LC14_ZN2MG,MG:NI;0) 273.00 +2*GHSERMG#+1*GHSERNI#+3*GNIMG2# +15000; 6000.00 N REF:pov12 ! $ $---------------------------Interaction parameters---------------------- $ PARAMETER L(LC14_ZN2MG,Al:MG,ZN;0) 273.00 +8000; 6000.00 N REF:40 ! PARAMETER L(LC14_ZN2MG,MG:MG,ZN;0) 273.00 +8000; 6000.00 N REF:40 ! PARAMETER L(LC14_ZN2MG,ZN:MG,ZN;0) 273.00 +8000; 6000.00 N REF:40 ! PARAMETER L(LC14_ZN2MG,MG,ZN:AL;0) 273.00 +35000; 6000.00 N REF:40 ! PARAMETER L(LC14_ZN2MG,MG,ZN:MG;0) 273.00 +35000; 6000.00 N REF:40 ! PARAMETER L(LC14_ZN2MG,MG,ZN:ZN;0) 273.00 +35000; 6000.00 N REF:40 ! PARAMETER L(LC14_ZN2MG,AL:AL,MG;0) 273.00 +15000; 6000.00 N REF:40 ! PARAMETER L(LC14_ZN2MG,MG:AL,MG;0) 273.00 +15000; 6000.00 N REF:40 ! PARAMETER L(LC14_ZN2MG,ZN:AL,MG;0) 273.00 +15000; 6000.00 N REF:40 ! PARAMETER L(LC14_ZN2MG,AL,MG:AL;0) 273.00 +8000; 6000.00 N REF:40 ! PARAMETER L(LC14_ZN2MG,AL,MG:MG;0) 273.00 +8000; 6000.00 N REF:40 ! PARAMETER L(LC14_ZN2MG,AL,MG:ZN;0) 273.00 +8000; 6000.00 N REF:40 ! PARAMETER L(LC14_ZN2MG,AL,ZN:AL;0) 273.00 -7500-18*T; 6000.00 N REF:40 ! PARAMETER L(LC14_ZN2MG,AL,ZN:MG;0) 273.00 -7500-18*T; 6000.00 N REF:40 ! PARAMETER L(LC14_ZN2MG,AL,ZN:ZN;0) 273.00 -7500-18*T; 6000.00 N REF:40 ! PARAMETER L(LC14_ZN2MG,CU,ZN:MG;0) 273.00 -145000+36*T; 6000.00 N REF:pov14 ! PARAMETER L(LC14_ZN2MG,NI,ZN:MG;0) 273.00 -153000+60*T; 6000.00 N REF:43 ! PARAMETER L(LC14_ZN2MG,AL,CU:MG;0) 273.00 -145000+36*T; 6000.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: MGALCUZN_T $########################################################################### $ PHASE MGALCUZN_T % 4 0.321 0.07406 0.59259 0.01235 > Cu-containing T-Phase, equilibrium precipitate in the overaging regime of AA7xxx alloys [REF:C39,C40]. >> 3 ! CONSTITUENT MGALCUZN_T : MG : AL,MG% : AL,CU,MG,ZN : AL : ! PARAMETER G(MGALCUZN_T,MG:MG:AL:AL;0) 273.00 -1000-2.3*T+0.605*GHSERAL# +0.395*GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(MGALCUZN_T,MG:MG:MG:AL;0) 273.00 +5000+3*T+0.012346*GHSERAL# +0.987654*GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(MGALCUZN_T,MG:AL:AL:AL;0) 273.00 -1.3*T+0.679*GHSERAL# +0.321*GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(MGALCUZN_T,MG:AL:MG:AL;0) 273.00 +13000+5*T+0.08642*GHSERAL# +0.91358*GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(MGALCUZN_T,MG:MG:CU:AL;0) 273.00 -2716+5.432*T +0.012346*GHSERAL#+0.395*GHSERMG#+0.5926*GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(MGALCUZN_T,MG:AL:CU:AL;0) 273.00 -283.95+5.432*T +0.0864*GHSERAL#+0.321*GHSERMG#+0.5926*GHSERCU# ; 6000.00 N REF:31 ! PARAMETER G(MGALCUZN_T,MG:MG:ZN:AL;0) 273.00 -10020+2*T +0.012346*GHSERAL#+0.395*GHSERMG#+0.5926*GHSERZN#; 6000.00 N REF:31 ! PARAMETER G(MGALCUZN_T,MG:AL:ZN:AL;0) 273.00 -10280+2*T +0.0864*GHSERAL#+0.321*GHSERMG#+0.5926*GHSERZN#; 6000.00 N REF:31 ! $ $---------------------------Interaction parameters---------------------- $ PARAMETER L(MGALCUZN_T,MG:MG:AL,MG:AL;0) 273.00 -2500-0.5*T; 6000.00 N REF:31 ! PARAMETER L(MGALCUZN_T,MG:AL:AL,MG:AL;0) 273.00 -2500-0.5*T; 6000.00 N REF:31 ! PARAMETER L(MGALCUZN_T,MG:AL:AL,CU:AL;0) 273.00 -57397 +27.9242*T; 60000.00 N REF:31 ! PARAMETER L(MGALCUZN_T,MG:MG:AL,CU:AL;0) 273.00 -57397 +27.9242*T; 6000.00 N REF:31 ! PARAMETER L(MGALCUZN_T,MG:MG:CU,MG:AL;0) 273.00 -2716; 6000.00 N REF:31 ! PARAMETER L(MGALCUZN_T,MG:MG:AL,ZN:AL;0) 273.00 -1300+3*T; 6000.00 N REF:31 ! PARAMETER L(MGALCUZN_T,MG:MG:MG,ZN:AL;0) 273.00 +3000+1*T; 6000.00 N REF:31 ! PARAMETER L(MGALCUZN_T,MG:AL:AL,ZN:AL;0) 273.00 -200+3*T; 6000.00 N REF:31 ! PARAMETER L(MGALCUZN_T,MG:AL:MG,ZN:AL;0) 273.00 +3000+1*T; 6000.00 N REF:31 ! PARAMETER L(MGALCUZN_T,MG:AL,MG:ZN:AL;0) 273.00 +1e-8; 6000.00 N REF:31 ! PARAMETER L(MGALCUZN_T,MG:AL:CU,ZN:AL;0) 273.00 -47500; 60000.00 N REF:pov14 ! PARAMETER L(MGALCUZN_T,MG:MG:CU,ZN:AL;0) 273.00 -47500; 6000.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: MG2SI_B $########################################################################### $ PHASE MG2SI_B % 2 2 1 > Face-centered cubic equilibrium phase. Incoherent precipitates (plates or cubes) in the overaging regime, 6xxx alloys. [REF:C31,C32] >> 5 ! CONSTITUENT MG2SI_B : MG : SI : ! PARAMETER G(MG2SI_B,MG:SI;0) 273.00 -92250.0+440.4*T-76.6*T*LN(T) -0.0018*T**2+630000*T**(-1); 6000.00 N REF:pov21 ! $ $########################################################################### $ THERMODYNAMIC DATA: PI_ALFEMGSI $########################################################################### $ PHASE PI_ALFEMGSI % 4 18 2 7 10 > Hexagonal equilibrium pi-phase. Occurs in Al-alloys with high contents of Si and Mg. Influencing ductility. [REF:C14,C15] >> 2 ! CONSTITUENT PI_ALFEMGSI : AL : FE : MG : SI : ! PARAMETER G(PI_ALFEMGSI,AL:FE:MG:SI;0) 273.00 -440000+18*GHSERAL# +2*GHSERFE#+7*GHSERMG#+10*GHSERSI#; 6000.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: Q_PHASE_L $########################################################################### $ PHASE Q_PHASE_L % 4 3 2 9 7 > Hexagonal equilibrium phase with 1 atom. Commonly precipitating in Cu-containing Al-alloys, e.g. 6xxx and 2xxx. [REF:C10] Low-T type reflecting lowest energy modification from 1st principles. [REF:C6] Use this phase for simulations of precursor phase to heterogeneous Q_PHASE_H. >> 4 ! CONSTITUENT Q_PHASE_L : AL : CU : MG : SI : ! PARAMETER G(Q_PHASE_L,AL:CU:MG:SI;0) 273.00 -365971.8+50*T +3*GHSERAL#+2*GHSERCU#+9*GHSERMG#+7*GHSERSI#; 6000.00 N REF:pov12 ! $ $########################################################################### $ THERMODYNAMIC DATA: Q_PHASE_H $########################################################################### $ PHASE Q_PHASE_H % 4 4 2 8 7 > Hexagonal equilibrium phase with 21 atoms per unit cell. Commonly precipitating as heterogeneous laths in Cu-containing Al-alloys, e.g. 6xxx and 2xxx. [REF:C10] >> 5 ! CONSTITUENT Q_PHASE_H : AL : CU : MG : SI : ! PARAMETER G(Q_PHASE_H,AL:CU:MG:SI;0) 273.00 -335000+10*T +4*GHSERAL#+2*GHSERCU#+8*GHSERMG#+7*GHSERSI#; 6000.00 N REF:pov12 ! $ $########################################################################### $ THERMODYNAMIC DATA: S_PHASE $########################################################################### $ PHASE S_PHASE % 3 2 1 1 > Base-centered orthorhombic, space group Cmcm. 16 atoms per unit cell. Lath-shaped precipitates, often on dislocations. [REF:C12] >> 4 ! CONSTITUENT S_PHASE : AL,SI : CU%,ZN : MG : ! PARAMETER G(S_PHASE,AL:CU:MG;0) 273.00 -66822.859+3.219093*T -6.67532E-21*T**(7)+2*GHSERAL#+GHSERCU#+GHSERMG#; 6000.00 N REF:49 ! PARAMETER G(S_PHASE,SI:CU:MG;0) 273.00 -30000+2*GHSERSI#+GHSERCU# +GHSERMG#; 6000.00 N REF:pov13 ! PARAMETER G(S_PHASE,AL:ZN:MG;0) 273.00 -12500+5*T+2*GHSERAL# +GHSERZN#+GHSERMG#; 6000.00 N REF:pov14 ! PARAMETER G(S_PHASE,SI:ZN:MG;0) 273.00 +2*GHSERSI#+GHSERZN# +GHSERMG#; 6000.00 N REF:pov14 ! PARAMETER L(S_PHASE,AL,SI:CU:MG;0) 273.00 +25000-50*T; 6000.00 N REF:pov13 ! PARAMETER L(S_PHASE,AL:CU,ZN:MG;0) 273.00 -20000+20*T; 6000.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: THETA_AL2CU $########################################################################### $ PHASE THETA_AL2CU % 2 2 1 > Equilibrium phase in Al-Cu. Tetragonal C16 structure, 4 formula units per unit cell. Commonly plate-like, heterogeneous precipitates at grain boundaries, over-aging regime. [REF:C8] >> 5 ! CONSTITUENT THETA_AL2CU : AL : AL,CU% : ! PARAMETER G(THETA_AL2CU,AL:AL;0) 273.00 +3.0*GALBCC#; 6000.00 N REF:31 ! PARAMETER G(THETA_AL2CU,AL:CU;0) 273.00 -48500+7.75*T+2.0*GHSERAL# +1.0*GHSERCU#; 6000.00 N REF:pov13 ! PARAMETER L(THETA_AL2CU,AL:AL,CU;0) 273.00 +1e-8; 6000.00 N REF:78 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL_B_DP $########################################################################### $ PHASE AL_B_DP % 3 2 5 4 > Metastable Al-containing precipitate phase in the beta double-prime precipitation regime. Same structure as Al-free beta double-prime, monoclinic with space group C2/m. Semicoherent needles in 6xxx alloys. [C36] >> 4 ! CONSTITUENT AL_B_DP : AL : MG : SI : ! PARAMETER G(AL_B_DP,AL:MG:SI;0) 273.00 -30000-20*T+2*GHSERAL#+5*GHSERMG# +4*GHSERSI#; 6000.00 N REF:85 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALCRSI $########################################################################### $ PHASE ALCRSI % 3 1 1 1 > metastable, potential precipitate in 6xxx Al-alloys. Ideal extension, to be optimized >> 2 ! CONSTITUENT ALCRSI : AL : CR : SI : ! PARAMETER G(ALCRSI,AL:CR:SI;0) 273.00 GHSERAL#+GHSERSI# +GHSERCR#+UNASS#; 6000.00 N ! $ $########################################################################### $ THERMODYNAMIC DATA: ALMGZN_GP $########################################################################### $ PHASE ALMGZN_GP % 3 8 1 1.2 > GP-zones in AA7xxx. Averaged composition assessed from literature data (pov09). >> 3 ! CONSTITUENT ALMGZN_GP : AL : MG : ZN : ! PARAMETER G(ALMGZN_GP,AL:MG:ZN;0) 273.00 -12000+5*T +8*GHSERAL#+GHSERMG#+1.2*GHSERZN#; 6000.00 N REF:pla12 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALMG4ZN11 $########################################################################### $ PHASE ALMG4ZN11 % 3 1 4 11 > Not assessed yet. Metastable, reported as precipitate phase in Al-Zn-Mg-Li alloy. [REF:C13] >> 2 ! CONSTITUENT ALMG4ZN11 : AL : MG : ZN : ! PARAMETER G(ALMG4ZN11,AL:MG:ZN;0) 273.00 -70000+30*T+GHSERAL#+4*GHSERMG# +11*GHSERZN#; 6000.00 N REF:pov09 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL6MN $########################################################################### PHASE AL6MN % 2 0.857143 0.142857 > Orthorhombic equilibrium phase with 28 atoms per unit cell. At high Mn-alloying, it can form large dispersoids at grain boundaries. Also smaller particles on dislocations. Example: Hardenable Al-0.7 at.% Mn, ellipsoid to rod-like particle morphologies. [REF:C24,C25,C26] >> 3 ! CONSTITUENT AL6MN : AL : CR,FE,MN% : ! PARAMETER G(AL6MN,AL:CR;0) 273.00 +0.857143*GHSERAL# +0.142857*GHSERCR#+50000; 6000.00 N REF:pov14 ! PARAMETER G(AL6MN,AL:FE;0) 273.00 -18712+5.5*T +0.857143*GHSERAL#+0.142857*GHSERFE#; 6000.00 N REF:31 ! PARAMETER G(AL6MN,AL:MN;0) 273.00 -17794.9+7.6656*T +0.857143*GHSERAL#+0.142857*GHSERMN#; 6000.00 N REF:31 ! PARAMETER L(AL6MN,AL:CR,MN;0) 273.00 -120000+57*T; 6000.00 N REF:pov14 ! PARAMETER L(AL6MN,AL:FE,MN;0) 273.00 -4679+3*T; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: BETA_DP $########################################################################### $ PHASE BETA_DP % 3 5 4 2 > Main metastable hardening phase in 6xxx, monoclinic with space group C2/m. Semicoherent needles. [REF:C31,C32,C35]. Al-content [REF:C38] of max. 4at.% considered. >> 5 ! CONSTITUENT BETA_DP : MG : SI : AL,SI : ! PARAMETER G(BETA_DP,MG:SI:SI;0) 273.00 -5000-40*T+5*GHSERMG# +6*GHSERSI#; 6000.00 N REF:pov10 ! PARAMETER G(BETA_DP,MG:SI:AL;0) 273.00 -10000+50*T+5*GHSERMG#+4*GHSERSI# +2*GHSERAL#; 6000.00 N REF:pov11 ! PARAMETER G(BETA_DP,MG:SI:AL,SI;0) 273.00 -150000+100*T; 6000.00 N REF:pov11 ! $ $########################################################################### $ THERMODYNAMIC DATA: B_PRIME_L $########################################################################### $ PHASE B_PRIME_L % 3 3 9 7 > Metastable B prime phase - low-T type reflecting lowest energy modification from 1st principles. Structure can be related to the hexagonal structure of Q-Phase, with empty Cu-sites. [REF:C11,C37] >> 2 ! CONSTITUENT B_PRIME_L : AL : MG : SI : ! PARAMETER G(B_PRIME_L,AL:MG:SI;0) 273.00 -140000-10*T+3*GHSERAL#+9*GHSERMG# +7*GHSERSI#; 6000.00 N REF:85 ! $ $########################################################################### $ THERMODYNAMIC DATA: B_PRIME_H $########################################################################### $ PHASE B_PRIME_H % 3 4 8 7 > Metastable B prime phase. Structure can be related to the hexagonal structure of Q-Phase, with empty Cu-sites. [REF:C11,C37] >> 4 ! CONSTITUENT B_PRIME_H : AL : MG : SI : ! PARAMETER G(B_PRIME_H,AL:MG:SI;0) 273.00 -115000-30*T+4*GHSERAL#+8*GHSERMG# +7*GHSERSI#; 6000.00 N REF:pov21 ! $ $########################################################################### $ THERMODYNAMIC DATA: CL_CUMG0 $########################################################################### $ PHASE CL_CUMG0 % 2 2 2 > Initial metastable Cu-Mg Co-Cluster. >> 4 ! CONSTITUENT CL_CUMG0 : AL : CU,MG : ! PARAMETER G(CL_CUMG0,AL:MG;0) 273.00 +2*GHSERAL#+5200-1.8*T +2*GHSERMG#; 6000.00 N REF:pov14 ! PARAMETER G(CL_CUMG0,AL:CU;0) 273.00 +2*GHSERAL#+2*GHSERCU#; 3600.00 N REF:pov14 ! PARAMETER L(CL_CUMG0,AL:CU,MG;0) 273.00 -160000; 3600.00 N REF:pov14 ! PARAMETER L(CL_CUMG0,AL:CU,MG;1) 273.00 -30000; 3600.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: CL_CUMG1 $########################################################################### $ PHASE CL_CUMG1 % 2 2 5 > Early metastable Cu-Mg Co-Cluster. >> 4 ! CONSTITUENT CL_CUMG1 : AL : CU,MG : ! PARAMETER G(CL_CUMG1,AL:MG;0) 273.00 +2*GHSERAL#+13000-4.5*T +5*GHSERMG#; 6000.00 N REF:pov14 ! PARAMETER G(CL_CUMG1,AL:CU;0) 273.00 +2*GHSERAL#+5*GHSERCU#; 3600.00 N REF:pov14 ! PARAMETER L(CL_CUMG1,AL:CU,MG;0) 273.00 -420000; 3600.00 N REF:pov14 ! PARAMETER L(CL_CUMG1,AL:CU,MG;1) 273.00 -250000; 3600.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: CL_MGSI $########################################################################### $ PHASE CL_MGSI % 1 1 > Early metastable Mg-Si Co-Cluster. [REF:C31,C32] >> 4 ! CONSTITUENT CL_MGSI : MG,SI : ! PARAMETER G(CL_MGSI,MG;0) 273.00 +2600-0.9*T+GHSERMG#; 6000.00 N REF:0 ! PARAMETER G(CL_MGSI,SI;0) 273.00 +51000-21.8*T+GHSERSI#; 3600.00 N REF:0 ! PARAMETER L(CL_MGSI,MG,SI;0) 273.00 -75000+15*T; 3600.00 N REF:85 ! PARAMETER L(CL_MGSI,MG,SI;1) 273.00 +1e-8; 3600.00 N REF:85 ! $ $########################################################################### $ THERMODYNAMIC DATA: CL_ALMGSI $########################################################################### $ PHASE CL_ALMGSI % 1 1 > Early metastable Al-Mg-Si Co-Cluster. >> 4 ! CONSTITUENT CL_ALMGSI : AL,MG,SI : ! PARAMETER G(CL_ALMGSI,AL;0) 273.00 +GHSERAL#+100; 6000.00 N REF:pov18 ! PARAMETER G(CL_ALMGSI,MG;0) 273.00 +2600-0.9*T+GHSERMG#; 6000.00 N REF:0 ! PARAMETER G(CL_ALMGSI,SI;0) 273.00 +51000-21.8*T+GHSERSI#; 3600.00 N REF:0 ! PARAMETER L(CL_ALMGSI,MG,SI;0) 273.00 -55000+15*T; 3600.00 N REF:85 ! PARAMETER L(CL_ALMGSI,MG,SI;1) 273.00 +1e-8; 3600.00 N REF:85 ! PARAMETER L(CL_ALMGSI,AL,MG,SI;0) 273.00 -75000+15*T; 3600.00 N REF:pov18 ! $ $########################################################################### $ THERMODYNAMIC DATA: ETA_P_ALMGZN $########################################################################### $ PHASE ETA_P_ALMGZN % 3 0.6 0.75 1.65 > Metastable eta prime precipitate in AA7xxx [REF:C27] >> 3 ! CONSTITUENT ETA_P_ALMGZN : AL : MG : ZN : ! PARAMETER G(ETA_P_ALMGZN,AL:MG:ZN;0) 273.00 -27500+18*T +0.6*GHSERAL#+0.75*GHSERMG#+1.65*GHSERZN#; 6000.00 N REF:pla13 ! $ $########################################################################### $ THERMODYNAMIC DATA: GP_MAT $########################################################################### $ 4-sublattice model based on Hallstedt et al. 2007, Al-Li (pov09) PHASE GP_MAT % 5 0.25 0.25 0.25 0.25 1 > Metastable, coherent Al-containing GP-Zones, "Matsuda-Phase": These GP-zones are modeled as ordered fcc-based phase, giving Al2Mg1Si1 according to Matsuda phase plus Al [REF:C33] >> 4 ! CONST GP_MAT : AL% MG SI : AL% MG SI : AL MG% SI : AL MG SI% : VA : ! $ PARAMETER G(GP_MAT,AL:AL:AL:MG:VA;0) 273.00 +GFAL3MG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:AL:MG:AL:VA;0) 273.00 +GFAL3MG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:MG:AL:AL:VA;0) 273.00 +GFAL3MG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:AL:AL:AL:VA;0) 273.00 +GFAL3MG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:AL:MG:MG:VA;0) 273.00 +GFAL2MG2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:MG:AL:MG:VA;0) 273.00 +GFAL2MG2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:MG:MG:AL:VA;0) 273.00 +GFAL2MG2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:AL:AL:MG:VA;0) 273.00 +GFAL2MG2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:AL:MG:AL:VA;0) 273.00 +GFAL2MG2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:MG:AL:AL:VA;0) 273.00 +GFAL2MG2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:MG:MG:MG:VA;0) 273.00 +GFALMG3#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:AL:MG:MG:VA;0) 273.00 +GFALMG3#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:MG:AL:MG:VA;0) 273.00 +GFALMG3#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:MG:MG:AL:VA;0) 273.00 +GFALMG3#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:AL:AL:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:AL:MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:MG:AL:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:AL:AL:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:MG:AL:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:AL:MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:MG:MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:MG:MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:AL:AL:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:AL:AL:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:MG:AL:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:AL:MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:MG:AL:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:AL:MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:MG:MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:MG:MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL,MG:AL:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL:AL,MG:AL:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:MG:AL,MG:AL:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL,MG:MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:AL,MG:AL:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL:AL,MG:MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:MG:AL,MG:MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:AL,MG:MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL:AL,MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL:AL:AL,MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:MG:AL:AL,MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:MG:AL,MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:AL:AL,MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL:MG:AL,MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:MG:MG:AL,MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:MG:AL,MG:VA;0) 273.00 +L0FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:AL:AL:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:AL:AL:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:MG:AL:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:AL:MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:MG:AL:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:AL:MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:MG:MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:MG:MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:AL:AL:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:AL:AL:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:MG:AL:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:AL:MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:MG:AL:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:MG:MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:AL:MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:MG:MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL,MG:AL:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL:AL,MG:AL:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:MG:AL,MG:AL:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL,MG:MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:AL,MG:AL:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL:AL,MG:MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:MG:AL,MG:MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:AL,MG:MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL:AL,MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL:AL:AL,MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:MG:AL:AL,MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:MG:AL,MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:AL:AL,MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL:MG:AL,MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:MG:MG:AL,MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:MG:AL,MG:VA;1) 273.00 +L1FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:AL:AL:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:AL:AL:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:MG:AL:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:AL:MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:MG:AL:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:AL:MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:MG:MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:MG:MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:AL:AL:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:AL:AL:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:MG:AL:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:AL:MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:MG:AL:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:MG:MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:AL:MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:MG:MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL,MG:AL:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL:AL,MG:AL:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:MG:AL,MG:AL:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL,MG:MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:AL,MG:AL:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL:AL,MG:MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:MG:AL,MG:MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:AL,MG:MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL:AL,MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL:AL:AL,MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:MG:AL:AL,MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:MG:AL,MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:AL:AL,MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL:MG:AL,MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:MG:MG:AL,MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:MG:AL,MG:VA;2) 273.00 +L2FALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL,MG:AL:AL:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL,MG:MG:MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL,MG:AL:MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL,MG:MG:AL:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:AL,MG:AL:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:AL,MG:MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:AL,MG:AL:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:AL,MG:MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:AL:AL,MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:MG:AL,MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:AL:MG:AL,MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,MG:MG:AL:AL,MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:AL,MG:AL:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:AL,MG:MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:AL,MG:MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:AL,MG:AL:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:AL:AL,MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:MG:AL,MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,MG:MG:AL,MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL,MG:AL:AL,MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL,MG:AL,MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:AL,MG:AL,MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:MG:AL,MG:AL,MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:AL:AL,MG:AL,MG:VA;0) 273.00 +SFALMG#; 6000.00 N REF:85 ! $ PARAMETER G(GP_MAT,AL:AL:AL:SI:VA;0) 273.00 +GFAL3SI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:AL:SI:AL:VA;0) 273.00 +GFAL3SI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:SI:AL:AL:VA;0) 273.00 +GFAL3SI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:AL:AL:AL:VA;0) 273.00 +GFAL3SI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:AL:SI:SI:VA;0) 273.00 +GFAL2SI2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:SI:AL:SI:VA;0) 273.00 +GFAL2SI2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:SI:SI:AL:VA;0) 273.00 +GFAL2SI2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:AL:AL:SI:VA;0) 273.00 +GFAL2SI2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:AL:SI:AL:VA;0) 273.00 +GFAL2SI2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:SI:AL:AL:VA;0) 273.00 +GFAL2SI2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:SI:SI:SI:VA;0) 273.00 +GFALSI3#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:AL:SI:SI:VA;0) 273.00 +GFALSI3#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:SI:AL:SI:VA;0) 273.00 +GFALSI3#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:SI:SI:AL:VA;0) 273.00 +GFALSI3#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:AL:AL:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:AL:SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:SI:AL:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:AL:AL:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:SI:AL:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:AL:SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:SI:SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:SI:SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:AL:AL:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:AL:AL:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:SI:AL:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:AL:SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:SI:AL:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:AL:SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:SI:SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:SI:SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL,SI:AL:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL:AL,SI:AL:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:SI:AL,SI:AL:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL,SI:SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:AL,SI:AL:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL:AL,SI:SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:SI:AL,SI:SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:AL,SI:SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL:AL,SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL:AL:AL,SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:SI:AL:AL,SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:SI:AL,SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:AL:AL,SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL:SI:AL,SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:SI:SI:AL,SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:SI:AL,SI:VA;0) 273.00 +L0FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:AL:AL:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:AL:AL:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:SI:AL:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:AL:SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:SI:AL:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:AL:SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:SI:SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:SI:SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:AL:AL:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:AL:AL:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:SI:AL:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:AL:SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:SI:AL:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:SI:SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:AL:SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:SI:SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL,SI:AL:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL:AL,SI:AL:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:SI:AL,SI:AL:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL,SI:SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:AL,SI:AL:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL:AL,SI:SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:SI:AL,SI:SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:AL,SI:SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL:AL,SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL:AL:AL,SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:SI:AL:AL,SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:SI:AL,SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:AL:AL,SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL:SI:AL,SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:SI:SI:AL,SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:SI:AL,SI:VA;1) 273.00 +L1FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:AL:AL:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:AL:AL:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:SI:AL:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:AL:SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:SI:AL:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:AL:SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:SI:SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:SI:SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:AL:AL:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:AL:AL:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:SI:AL:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:AL:SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:SI:AL:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:SI:SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:AL:SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:SI:SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL,SI:AL:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL:AL,SI:AL:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:SI:AL,SI:AL:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL,SI:SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:AL,SI:AL:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL:AL,SI:SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:SI:AL,SI:SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:AL,SI:SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL:AL,SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL:AL:AL,SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:SI:AL:AL,SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:SI:AL,SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:AL:AL,SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL:SI:AL,SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:SI:SI:AL,SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:SI:AL,SI:VA;2) 273.00 +L2FALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL,SI:AL:AL:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL,SI:SI:SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL,SI:AL:SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL,SI:SI:AL:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:AL,SI:AL:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:AL,SI:SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:AL,SI:AL:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:AL,SI:SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:AL:AL,SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:SI:AL,SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:AL:SI:AL,SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL,SI:SI:AL:AL,SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:AL,SI:AL:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:AL,SI:SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:AL,SI:SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:AL,SI:AL:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:AL:AL,SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:SI:AL,SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL,SI:SI:AL,SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL,SI:AL:AL,SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:AL:AL,SI:AL,SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:AL,SI:AL,SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,AL:SI:AL,SI:AL,SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:AL:AL,SI:AL,SI:VA;0) 273.00 +SFALSI#; 6000.00 N REF:85 ! $ PARAMETER G(GP_MAT,SI:SI:SI:MG:VA;0) 273.00 +GFSI3MG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:SI:MG:SI:VA;0) 273.00 +GFSI3MG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:MG:SI:SI:VA;0) 273.00 +GFSI3MG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:SI:SI:SI:VA;0) 273.00 +GFSI3MG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:SI:MG:MG:VA;0) 273.00 +GFSI2MG2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:MG:SI:MG:VA;0) 273.00 +GFSI2MG2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:MG:MG:SI:VA;0) 273.00 +GFSI2MG2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:SI:SI:MG:VA;0) 273.00 +GFSI2MG2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:SI:MG:SI:VA;0) 273.00 +GFSI2MG2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:MG:SI:SI:VA;0) 273.00 +GFSI2MG2#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:MG:MG:MG:VA;0) 273.00 +GFSIMG3#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:SI:MG:MG:VA;0) 273.00 +GFSIMG3#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:MG:SI:MG:VA;0) 273.00 +GFSIMG3#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:MG:MG:SI:VA;0) 273.00 +GFSIMG3#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:SI:SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:SI:MG:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:MG:SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:SI:SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:MG:SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:SI:MG:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:MG:MG:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:MG:MG:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:SI:SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:SI:SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:MG:SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:SI:MG:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:MG:SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:SI:MG:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:MG:MG:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:MG:MG:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:MG,SI:SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:SI:MG,SI:SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG:MG,SI:SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:MG,SI:MG:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:MG,SI:SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:SI:MG,SI:MG:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG:MG,SI:MG:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:MG,SI:MG:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:SI:MG,SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:SI:SI:MG,SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG:SI:MG,SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:MG:MG,SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:SI:MG,SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:SI:MG:MG,SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG:MG:MG,SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:MG:MG,SI:VA;0) 273.00 +L0FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:SI:SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:SI:SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:MG:SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:SI:MG:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:MG:SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:SI:MG:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:MG:MG:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:MG:MG:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:SI:SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:SI:SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:MG:SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:SI:MG:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:MG:SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:MG:MG:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:SI:MG:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:MG:MG:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:MG,SI:SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:SI:MG,SI:SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG:MG,SI:SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:MG,SI:MG:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:MG,SI:SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:SI:MG,SI:MG:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG:MG,SI:MG:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:MG,SI:MG:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:SI:MG,SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:SI:SI:MG,SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG:SI:MG,SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:MG:MG,SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:SI:MG,SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:SI:MG:MG,SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG:MG:MG,SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:MG:MG,SI:VA;1) 273.00 +L1FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:SI:SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:SI:SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:MG:SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:SI:MG:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:MG:SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:SI:MG:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:MG:MG:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:MG:MG:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:SI:SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:SI:SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:MG:SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:SI:MG:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:MG:SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:MG:MG:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:SI:MG:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:MG:MG:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:MG,SI:SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:SI:MG,SI:SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG:MG,SI:SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:MG,SI:MG:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:MG,SI:SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:SI:MG,SI:MG:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG:MG,SI:MG:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:MG,SI:MG:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:SI:MG,SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:SI:SI:MG,SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG:SI:MG,SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:MG:MG,SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:SI:MG,SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:SI:MG:MG,SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG:MG:MG,SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:MG:MG,SI:VA;2) 273.00 +L2FSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG,SI:SI:SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG,SI:MG:MG:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG,SI:SI:MG:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG,SI:MG:SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:MG,SI:SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:MG,SI:MG:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:MG,SI:SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:MG,SI:MG:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:SI:MG,SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:MG:MG,SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:SI:MG:MG,SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG,SI:MG:SI:MG,SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:MG,SI:SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:MG,SI:MG:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:MG,SI:MG:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:MG,SI:SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:SI:MG,SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:MG:MG,SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG,SI:MG:MG,SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG,SI:SI:MG,SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:SI:MG,SI:MG,SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:MG:MG,SI:MG,SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,SI:MG:MG,SI:MG,SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! PARAMETER L(GP_MAT,MG:SI:MG,SI:MG,SI:VA;0) 273.00 +SFSIMG#; 6000.00 N REF:85 ! $ ternary ordering parameters for endmember compounds (pov) PARAMETER G(GP_MAT,AL:AL:MG:SI:VA;0) 273.00 +GFAL2MGSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:AL:SI:MG:VA;0) 273.00 +GFAL2MGSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:MG:AL:SI:VA;0) 273.00 +GFAL2MGSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:SI:AL:MG:VA;0) 273.00 +GFAL2MGSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:MG:SI:AL:VA;0) 273.00 +GFAL2MGSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:SI:MG:AL:VA;0) 273.00 +GFAL2MGSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:AL:AL:SI:VA;0) 273.00 +GFAL2MGSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:AL:AL:MG:VA;0) 273.00 +GFAL2MGSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:AL:SI:AL:VA;0) 273.00 +GFAL2MGSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:AL:MG:AL:VA;0) 273.00 +GFAL2MGSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:SI:AL:AL:VA;0) 273.00 +GFAL2MGSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:MG:AL:AL:VA;0) 273.00 +GFAL2MGSI#; 6000.00 N REF:85 ! $ PARAMETER G(GP_MAT,MG:MG:AL:SI:VA;0) 273.00 +GFMG2ALSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:MG:SI:AL:VA;0) 273.00 +GFMG2ALSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:AL:MG:SI:VA;0) 273.00 +GFMG2ALSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:SI:MG:AL:VA;0) 273.00 +GFMG2ALSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:AL:SI:MG:VA;0) 273.00 +GFMG2ALSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:SI:AL:MG:VA;0) 273.00 +GFMG2ALSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:MG:MG:SI:VA;0) 273.00 +GFMG2ALSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:MG:MG:AL:VA;0) 273.00 +GFMG2ALSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:MG:SI:MG:VA;0) 273.00 +GFMG2ALSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:MG:AL:MG:VA;0) 273.00 +GFMG2ALSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:SI:MG:MG:VA;0) 273.00 +GFMG2ALSI#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:AL:MG:MG:VA;0) 273.00 +GFMG2ALSI#; 6000.00 N REF:85 ! $ PARAMETER G(GP_MAT,SI:SI:AL:MG:VA;0) 273.00 +GFSI2ALMG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:SI:MG:AL:VA;0) 273.00 +GFSI2ALMG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:AL:SI:MG:VA;0) 273.00 +GFSI2ALMG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:MG:SI:AL:VA;0) 273.00 +GFSI2ALMG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:AL:MG:SI:VA;0) 273.00 +GFSI2ALMG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,SI:MG:AL:SI:VA;0) 273.00 +GFSI2ALMG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:SI:SI:MG:VA;0) 273.00 +GFSI2ALMG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:SI:SI:AL:VA;0) 273.00 +GFSI2ALMG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:SI:MG:SI:VA;0) 273.00 +GFSI2ALMG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:SI:AL:SI:VA;0) 273.00 +GFSI2ALMG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,AL:MG:SI:SI:VA;0) 273.00 +GFSI2ALMG#; 6000.00 N REF:85 ! PARAMETER G(GP_MAT,MG:AL:SI:SI:VA;0) 273.00 +GFSI2ALMG#; 6000.00 N REF:85 ! $ reciprocal ternary parameter (pov) PARAMETER L(GP_MAT,AL,MG:AL,SI:*:*:VA;0) 273.00 +SFALMGSI#; 6000.00 N REF:85 ! $ $ Parameter to settle rounding errors and destabilise disordered GP $ relative to fcc in thermodynamic equilibrium calculations $ above the order-disorder temperature of GP_MAT. PARAMETER SE(GP_MAT) 273.00 +0.1; 6000.00 N REF:koze12 ! $ $########################################################################### $ THERMODYNAMIC DATA: L12AL3ZR $########################################################################### $ PHASE L12AL3ZR % 2 0.75 0.25 > cubic ordered L12 structure, metastable. Coherent, nano-scale precipitates. >> 3 ! CONSTITUENT L12AL3ZR : AL : ZR : ! PARAMETER G(L12AL3ZR,AL:ZR;0) 273.00 -42500+8.5*T+0.75*GHSERAL# +0.25*GHSERZR#; 6000.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: GP_MGSI $########################################################################### $ PHASE GP_MGSI % 2 1 1 > Al-free GP-Zones. [REF:C33] >> 1 ! CONSTITUENT GP_MGSI : MG : SI : ! PARAMETER G(GP_MGSI,MG:SI;0) 273.00 +12000-16*T+GHSERMG# +GHSERAL#; 6000.00 N REF:pov10 ! $ $########################################################################### $ THERMODYNAMIC DATA: MGSI_B_P $########################################################################### $ PHASE MGSI_B_P % 2 1.8 1 > Beta prime, metastable hexagonal close-packed rod-like Mg-Si precipitates in 6xxx alloys. [REF:C31,C32,C34] >> 5 ! CONSTITUENT MGSI_B_P : MG : SI : ! PARAMETER G(MGSI_B_P,MG:SI;0) 273.00 -68000+400*T-70*T*LN(T) -0.006*T**2+500000*T**(-1); 6000.00 N REF:85 ! $ $########################################################################### $ THERMODYNAMIC DATA: MG5SI6_B_DP $########################################################################### $ PHASE MG5SI6_B_DP % 2 5 6 > Main metastable hardening phase in 6xxx, monoclinic with space group C2/m. Al-free Mg5Si6. Semicoherent needles. [REF:C31,C32,C35]. >> 5 ! CONSTITUENT MG5SI6_B_DP : CU,MG : SI : ! PARAMETER G(MG5SI6_B_DP,MG:SI;0) 273.00 -5000-30*T-0.0096*T**2 -1e-7*T**3+5*GHSERMG#+6*GHSERSI#; 6000.00 N REF:85 ! PARAMETER G(MG5SI6_B_DP,CU,MG:SI;0) 273.00 -125000+5*GHSERCU# +6*GHSERSI#; 6000.00 N REF:pov13 ! $ $########################################################################### $ THERMODYNAMIC DATA: PRE_B_DP $########################################################################### $ PHASE PRE_B_DP % 3 1 4 6 ! CONSTITUENT PRE_B_DP : AL : MG : SI : ! PARAMETER G(PRE_B_DP,AL:MG:SI;0) 273.00 -10000+82*T +GHSERAL#+4*GHSERMG#+6*GHSERSI#; 6000.00 N REF:pov09 ! $ $########################################################################### $ THERMODYNAMIC DATA: TH_DP_GPB $########################################################################### $ PHASE TH_DP_GPB % 5 1 1 4 1 1 > Metastable, coherent hardening phase Theta double-prime in Al-Cu and GPB zones in Al-Cu-Mg (composition set 1) alloys. GPB after Guinier-Preston-Bagaryatsky. Forming monatomic layers that agglomerate [REFS:C5,C6,C7]. Hypothetic solubilities of Mg and Si. >> 4 ! CONSTITUENT TH_DP_GPB : AL%,MG,SI : AL%,MG,SI : AL : CU%,MG,SI : CU%,MG,SI : ! PARAMETER G(TH_DP_GPB,AL:AL:AL:CU:CU;0) 273.00 +6*GHSERAL#+2*GHSERCU# -71000+10*T; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,AL:AL:AL:CU:MG;0) 273.00 +6*GHSERAL#+GHSERCU# +GHSERMG#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,AL:AL:AL:CU:SI;0) 273.00 +6*GHSERAL#+GHSERCU# +GHSERSI#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,AL:AL:AL:MG:CU;0) 273.00 -75000+85*T+6*GHSERAL# +GHSERCU#+GHSERMG#; 6000.00 N REF:pov13 ! PARAMETER G(TH_DP_GPB,AL:AL:AL:MG:MG;0) 273.00 +6*GHSERAL#+2*GHSERMG# -2800; 6000.00 N REF:pov12 ! PARAMETER G(TH_DP_GPB,AL:AL:AL:MG:SI;0) 273.00 +6*GHSERAL#+GHSERSI# +GHSERMG#+25*T; 6000.00 N REF:pov12 ! PARAMETER G(TH_DP_GPB,AL:AL:AL:SI:CU;0) 273.00 -7000+6*GHSERAL#+GHSERCU# +GHSERSI#; 6000.00 N REF:pov13 ! PARAMETER G(TH_DP_GPB,AL:AL:AL:SI:MG;0) 273.00 +6*GHSERAL#+GHSERSI# +GHSERMG#+25*T; 6000.00 N REF:pov12 ! PARAMETER G(TH_DP_GPB,AL:AL:AL:SI:SI;0) 273.00 +6*GHSERAL#+2*GHSERSI# +60000; 6000.00 N REF:pov12 ! PARAMETER G(TH_DP_GPB,AL:MG:AL:CU:CU;0) 273.00 +5*GHSERAL#+GHSERMG# +2*GHSERCU#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,AL:MG:AL:CU:MG;0) 273.00 +5*GHSERAL#+GHSERCU# +2*GHSERMG#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,AL:MG:AL:CU:SI;0) 273.00 +5*GHSERAL#+GHSERCU# +GHSERSI#+GHSERMG#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,AL:MG:AL:MG:CU;0) 273.00 +5*GHSERAL#+GHSERCU# +2*GHSERMG#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,AL:MG:AL:SI:CU;0) 273.00 +5*GHSERAL#+GHSERCU# +GHSERSI#+GHSERMG#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,MG:AL:AL:CU:CU;0) 273.00 +5*GHSERAL#+2*GHSERMG# +2*GHSERCU#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,MG:AL:AL:CU:MG;0) 273.00 +5*GHSERAL#+GHSERCU# +2*GHSERMG#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,MG:AL:AL:CU:SI;0) 273.00 +5*GHSERAL#+GHSERCU# +GHSERSI#+GHSERMG#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,MG:AL:AL:MG:CU;0) 273.00 +5*GHSERAL#+GHSERCU# +2*GHSERMG#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,MG:AL:AL:SI:CU;0) 273.00 +5*GHSERAL#+GHSERCU#+GHSERSI# +GHSERMG#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,AL:SI:AL:CU:CU;0) 273.00 +5*GHSERAL#+2*GHSERSI# +2*GHSERCU#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,AL:SI:AL:CU:MG;0) 273.00 +5*GHSERAL#+GHSERCU#+GHSERMG# +GHSERSI#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,AL:SI:AL:CU:SI;0) 273.00 +5*GHSERAL#+GHSERCU# +2*GHSERSI#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,AL:SI:AL:MG:CU;0) 273.00 +5*GHSERAL#+GHSERCU#+GHSERMG# +GHSERSI#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,AL:SI:AL:SI:CU;0) 273.00 +5*GHSERAL#+GHSERCU# +2*GHSERSI#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,SI:AL:AL:CU:CU;0) 273.00 +5*GHSERAL#+2*GHSERSI# +2*GHSERCU#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,SI:AL:AL:CU:MG;0) 273.00 +5*GHSERAL#+GHSERCU# +GHSERMG#+GHSERSI#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,SI:AL:AL:CU:SI;0) 273.00 +5*GHSERAL#+GHSERCU# +2*GHSERSI#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,SI:AL:AL:MG:CU;0) 273.00 +5*GHSERAL#+GHSERCU# +GHSERMG# +GHSERSI#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,SI:AL:AL:SI:CU;0) 273.00 +5*GHSERAL#+GHSERCU# +2*GHSERSI#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,MG:MG:AL:CU:CU;0) 273.00 +4*GHSERAL#+2*GHSERMG# +2*GHSERCU#-40000+10*T; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,MG:MG:AL:CU:MG;0) 273.00 +4*GHSERAL#+3*GHSERMG# +GHSERCU#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,MG:MG:AL:CU:SI;0) 273.00 +4*GHSERAL#+2*GHSERMG# +GHSERCU#+GHSERSI#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,MG:MG:AL:MG:CU;0) 273.00 +4*GHSERAL#+3*GHSERMG# +GHSERCU#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,MG:MG:AL:MG:MG;0) 273.00 +4*GHSERAL#+4*GHSERMG# +5000; 6000.00 N REF:pov12 ! PARAMETER G(TH_DP_GPB,MG:MG:AL:MG:SI;0) 273.00 +4*GHSERAL#+3*GHSERMG# +GHSERSI#-5000; 6000.00 N REF:pov12 ! PARAMETER G(TH_DP_GPB,MG:MG:AL:SI:CU;0) 273.00 +4*GHSERAL#+2*GHSERMG# +GHSERCU#+GHSERSI#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,MG:MG:AL:SI:MG;0) 273.00 +4*GHSERAL#+3*GHSERMG# +GHSERSI#-5000; 6000.00 N REF:pov12 ! PARAMETER G(TH_DP_GPB,MG:MG:AL:SI:SI;0) 273.00 +4*GHSERAL#+2*GHSERMG# +2*GHSERSI#-10000; 6000.00 N REF:pov12 ! PARAMETER G(TH_DP_GPB,SI:SI:AL:CU:CU;0) 273.00 +4*GHSERAL#+2*GHSERSI# +2*GHSERCU#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,SI:SI:AL:CU:MG;0) 273.00 +4*GHSERAL#+2*GHSERSI# +GHSERCU#+GHSERMG#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,SI:SI:AL:CU:SI;0) 273.00 +4*GHSERAL#+3*GHSERSI# +GHSERCU#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,SI:SI:AL:MG:CU;0) 273.00 +4*GHSERAL#+2*GHSERSI# +GHSERCU#+GHSERMG#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,SI:SI:AL:MG:MG;0) 273.00 +4*GHSERAL#+2*GHSERMG# +2*GHSERSI#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,SI:SI:AL:MG:SI;0) 273.00 +4*GHSERAL#+3*GHSERSI# +GHSERMG#+40000; 6000.00 N REF:pov12 ! PARAMETER G(TH_DP_GPB,SI:SI:AL:SI:CU;0) 273.00 +4*GHSERAL#+3*GHSERSI# +GHSERCU#; 6000.00 N REF:pov11 ! PARAMETER G(TH_DP_GPB,SI:SI:AL:SI:MG;0) 273.00 +4*GHSERAL#+3*GHSERSI# +GHSERMG#+40000; 6000.00 N REF:pov12 ! PARAMETER G(TH_DP_GPB,SI:SI:AL:SI:SI;0) 273.00 +4*GHSERAL#+4*GHSERSI# +110000; 6000.00 N REF:pov12 ! PARAMETER L(TH_DP_GPB,AL,MG:MG:AL:CU:CU;0) 273.00 -100000; 6000.00 N REF:pov11 ! PARAMETER L(TH_DP_GPB,AL,MG:MG:AL:CU:CU;1) 273.00 +300000; 6000.00 N REF:pov11 ! PARAMETER L(TH_DP_GPB,AL,MG:MG:AL:CU:CU;2) 273.00 -300000; 6000.00 N REF:pov11 ! PARAMETER L(TH_DP_GPB,AL,MG:AL:AL:CU:CU;0) 273.00 +1e-8; 6000.00 N REF:pov11 ! PARAMETER L(TH_DP_GPB,AL:AL,MG:AL:CU:CU;0) 273.00 +1e-8; 6000.00 N REF:pov11 ! PARAMETER L(TH_DP_GPB,MG:AL,MG:AL:CU:CU;0) 273.00 +1e-8; 6000.00 N REF:pov11 ! $ $########################################################################### $ THERMODYNAMIC DATA: THETA_PRIME $########################################################################### $ PHASE THETA_PRIME % 2 2 1 > Important tetragonal hardening phase in Al-Cu. Commonly plate-like. [REF:C9,C10] >> 5 ! CONSTITUENT THETA_PRIME : AL : CU : ! PARAMETER G(THETA_PRIME,AL:CU;0) 273.00 -49250+10.75*T+2*GHSERAL# +GHSERCU#; 6000.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: U1_PHASE $########################################################################### $ PHASE U1_PHASE % 3 2 1 2 > Needle-like precipitate with trigonal structure observed in 6xxx in the beta prime precipitation regime. [REF:C37] >> 3 ! CONSTITUENT U1_PHASE : AL : MG : SI : ! PARAMETER G(U1_PHASE,AL:MG:SI;0) 273.00 -5000-10*T-0.0055*T**2 +3e-6*T**3+150000*T**(-1)+2*GHSERAL#+GHSERMG#+2*GHSERSI#; 6000.00 N REF:85 ! $ $########################################################################### $ THERMODYNAMIC DATA: U2_PHASE $########################################################################### $ PHASE U2_PHASE % 3 1 1 1 > Needle-like precipitate with orthorhombic structure in 6xxx in the beta' precipitation regime. [REF:C37] >> 3 ! CONSTITUENT U2_PHASE : AL : MG : SI : ! PARAMETER G(U2_PHASE,AL:MG:SI;0) 273.00 -14000-3.75*T-0.0015*T**2 +7.5e-7*T**3+62500*T**(-1)+GHSERAL#+GHSERMG#+GHSERSI#; 6000.00 N REF:85 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALCR $########################################################################### $ PHASE ALCR % 2 1 1 > >> 1 ! CONSTITUENT ALCR : AL%,CR : AL,CR% : ! PARAMETER G(ALCR,AL:AL;0) 273.00 +2.0*GHSERAL#+4.0; 6000.00 N REF:31 ! PARAMETER G(ALCR,CR:CR;0) 273.00 +2.0*GCRFCC#; 6000.00 N REF:31 ! PARAMETER G(ALCR,AL:CR;0) 273.00 -25000+3*T+GHSERAL#+GCRFCC#; 6000.00 N REF:31 ! PARAMETER G(ALCR,CR:AL;0) 273.00 -25000+3*T+GHSERAL#+GCRFCC#; 6000.00 N REF:31 ! PARAMETER L(ALCR,AL:AL,CR;0) 273.00 +1.0E-4; 6000.00 N REF:31 ! PARAMETER L(ALCR,CR:AL,CR;0) 273.00 +1.0E-4; 6000.00 N REF:31 ! PARAMETER L(ALCR,AL,CR:AL;0) 273.00 +1.0E-4; 6000.00 N REF:31 ! PARAMETER L(ALCR,AL,CR:CR;0) 273.00 +1.0E-4; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALCR2 $########################################################################### $ PHASE ALCR2 % 2 1 2 > >> 1 ! CONSTITUENT ALCR2 : AL,CR : AL,CR : ! PARAMETER G(ALCR2,AL:AL;0) 273.00 +15000 +GHSERAL#+GHSERAL#; 6000.00 N REF:68 ! PARAMETER G(ALCR2,CR:AL;0) 273.00 +75279.2 +2*GHSERAL#+GHSERCR#; 6000.00 N REF:68 ! PARAMETER G(ALCR2,AL:CR;0) 273.00 -45279.2 +GHSERAL#+2*GHSERCR#; 6000.00 N REF:68 ! PARAMETER G(ALCR2,CR:CR;0) 273.00 +15000 +GHSERCR#+GHSERCR#; 6000.00 N REF:68 ! PARAMETER L(ALCR2,AL,CR:AL;0) 273.00 -11282.4-6.37*T; 6000.00 N REF:68 ! PARAMETER L(ALCR2,AL:AL,CR;0) 273.00 -31502.4+5.7033*T; 6000.00 N REF:68 ! PARAMETER L(ALCR2,CR:AL,CR;0) 273.00 -31502.4+5.7033*T; 6000.00 N REF:68 ! PARAMETER L(ALCR2,AL,CR:CR;0) 273.00 -11282.4-6.37*T; 6000.00 N REF:68 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL8CR5_H $########################################################################### $ PHASE AL8CR5_H % 2 8 5 > >> 1 ! CONSTITUENT AL8CR5_H : AL : CR : ! PARAMETER G(AL8CR5_H,AL:CR;0) 273.00 -147732.0-58.5*T +8*GHSERAL#+5*GHSERCR#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL8CR5_L $########################################################################### $ PHASE AL8CR5_L % 2 8 5 > >> 1 ! CONSTITUENT AL8CR5_L : AL : CR : ! PARAMETER G(AL8CR5_L,AL:CR;0) 273.00 -229515.0 +8*GHSERAL#+5*GHSERCR#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL9CR4_H $########################################################################### $ PHASE AL9CR4_H % 2 9 4 > >> 1 ! CONSTITUENT AL9CR4_H : AL : CR : ! PARAMETER G(AL9CR4_H,AL:CR;0) 273.00 -134433.0-56.16*T +9*GHSERAL#+4*GHSERCR#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL9CR4_L $########################################################################### $ PHASE AL9CR4_L % 2 9 4 > >> 1 ! CONSTITUENT AL9CR4_L : AL : CR : ! PARAMETER G(AL9CR4_L,AL:CR;0) 273.00 -230750.0+16.094*T +9*GHSERAL#+4*GHSERCR#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL2CU3_D $########################################################################### $ PHASE AL2CU3_D % 2 2 3 > >> 1 ! CONSTITUENT AL2CU3_D : AL%,ZN : CU : ! PARAMETER G(AL2CU3_D,AL:CU;0) 273.00 -106700.0+3*T+2*GHSERAL# +3*GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(AL2CU3_D,ZN:CU;0) 273.00 -1.2000000E+04+2*GHSERZN# +3*GHSERCU#; 6000.00 N REF:31 ! PARAMETER L(AL2CU3_D,AL,ZN:CU;0) 273.00 +1.00E+04; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALCU_E $########################################################################### $ PHASE ALCU_E % 2 1 1 > >> 1 ! CONSTITUENT ALCU_E : AL%,CU,ZN : CU : ! PARAMETER G(ALCU_E,AL:CU;0) 273.00 -36976+1.2*T+GHSERAL# +GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(ALCU_E,CU:CU;0) 273.00 +2*GCUBCC#; 6000.00 N REF:31 ! PARAMETER G(ALCU_E,ZN:CU;0) 273.00 -5000+GHSERZN#+GHSERCU#; 6000.00 N REF:31 ! PARAMETER L(ALCU_E,AL,CU:CU;0) 273.00 +7600-24*T; 6000.00 N REF:31 ! PARAMETER L(ALCU_E,AL,CU:CU;1) 273.00 -72000; 6000.00 N REF:31 ! PARAMETER L(ALCU_E,AL,ZN:CU;0) 273.00 +1.E-4; 6000.00 N REF:31 ! PARAMETER L(ALCU_E,CU,ZN:CU;0) 273.00 +1.0E-4; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALCU_ETA $########################################################################### $ PHASE ALCU_ETA % 2 1 1 > >> 1 ! CONSTITUENT ALCU_ETA : AL%,CU : CU%,ZN : ! PARAMETER G(ALCU_ETA,AL:CU;0) 273.00 -40560+3.14*T +GHSERAL#+GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(ALCU_ETA,CU:CU;0) 273.00 +2*GCUBCC#; 6000.00 N REF:31 ! PARAMETER G(ALCU_ETA,AL:ZN;0) 273.00 +5000+GHSERAL#+GHSERZN#; 6000.00 N REF:31 ! PARAMETER G(ALCU_ETA,CU:ZN;0) 273.00 +3.0400000E+03 +GHSERCU#+GHSERZN#; 6000.00 N REF:31 ! PARAMETER L(ALCU_ETA,AL,CU:CU;0) 273.00 -25740-20*T; 6000.00 N REF:31 ! PARAMETER L(ALCU_ETA,AL,CU:ZN;0) 273.00 +6.931E+03; 6000.00 N REF:31 ! PARAMETER L(ALCU_ETA,AL:CU,ZN;0) 273.00 -3.461E+03-5.4E-01*T; 6000.00 N REF:31 ! PARAMETER L(ALCU_ETA,CU:CU,ZN;0) 273.00 -9.4300000E+02; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALCU_G_D83 $########################################################################### $ PHASE ALCU_G_D83 % 3 4 1 8 > >> 1 ! CONSTITUENT ALCU_G_D83 : AL%,SI : AL,CU% : CU : ! PARAMETER G(ALCU_G_D83,AL:AL:CU;0) 273.00 -300716+390*T-52*T*LN(T) +5*GHSERAL#+8*GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(ALCU_G_D83,AL:CU:CU;0) 273.00 -280501+379.6*T-52*T*LN(T) +4*GHSERAL#+9*GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(ALCU_G_D83,SI:AL:CU;0) 273.00 -78733.2738+1*GHSERAL# +8*GHSERCU#+4*GHSERSI#; 6000.00 N REF:56 ! PARAMETER G(ALCU_G_D83,SI:CU:CU;0) 273.00 +18783.2703-61.43045*T+4*GHSERSI# +9*GHSERCU#; 6000.00 N REF:56 ! PARAMETER L(ALCU_G_D83,AL:AL,CU:CU;0) 273.00 +1E-10; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL9CU11_Z $########################################################################### $ PHASE AL9CU11_Z % 2 9 11 > >> 1 ! CONSTITUENT AL9CU11_Z : AL%,ZN : CU : ! PARAMETER G(AL9CU11_Z,AL:CU;0) 273.00 -420000+18*T+9*GHSERAL# +11*GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(AL9CU11_Z,ZN:CU;0) 273.00 -5.0E+03+9*GHSERZN# +11*GHSERCU#; 6000.00 N REF:31 ! PARAMETER L(AL9CU11_Z,AL,ZN:CU;0) 273.00 +1.0E-4; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALCUMG_V $########################################################################### $ PHASE ALCUMG_V % 3 5 6 2 > >> 1 ! CONSTITUENT ALCUMG_V : AL : CU : MG : ! PARAMETER G(ALCUMG_V,AL:CU:MG;0) 273.00 -274527.45+13.0*T +5*GHSERAL#+6*GHSERCU#+2*GHSERMG#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALCUZN_T $########################################################################### $ PHASE ALCUZN_T % 2 1 1 > >> 1 ! CONSTITUENT ALCUZN_T : AL%,ZN : CU%,VA : ! PARAMETER G(ALCUZN_T,AL:VA;0) 273.00 +12000-2.08420E+04+33.3*T +GALBCC#; 6000.00 N REF:31 ! PARAMETER G(ALCUZN_T,AL:CU;0) 273.00 -4.5869363E+04+GALBCC# +GCUBCC#; 6000.00 N REF:31 ! PARAMETER G(ALCUZN_T,ZN:VA;0) 273.00 +GZNBCC#+5.000E+03; 6000.00 N REF:31 ! PARAMETER G(ALCUZN_T,ZN:CU;0) 273.00 +44336.07+16.19*T+GCUBCC# +GZNBCC#; 6000.00 N REF:pov14 ! PARAMETER L(ALCUZN_T,AL:CU,VA;0) 273.00 -1.5667E+04+1.610E+01*T; 6000.00 N REF:31 ! PARAMETER L(ALCUZN_T,AL,ZN:VA;0) 273.00 +3.000E+02; 6000.00 N REF:31 ! PARAMETER L(ALCUZN_T,AL,ZN:CU;0) 273.00 -7.000E+03; 6000.00 N REF:31 ! PARAMETER L(ALCUZN_T,AL,ZN:CU,VA;0) 273.00 +1.007E+03; 6000.00 N REF:31 ! PARAMETER L(ALCUZN_T,ZN:CU,VA;0) 273.00 +6.9810E+03; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL2FE $########################################################################### $ PHASE AL2FE % 2 0.6667 0.3333 > >> 1 ! CONSTITUENT AL2FE : AL%,SI : FE,MN,NI : ! PARAMETER G(AL2FE,AL:FE;0) 273.00 -33175.33+6.60367*T +0.6667*GHSERAL#+0.3333*GHSERFE#; 6000.00 N REF:36 ! PARAMETER G(AL2FE,AL:MN;0) 273.00 -4688.333+0.6667*GHSERAL# +0.3333*GHSERMN#; 6000.00 N REF:31 ! PARAMETER G(AL2FE,AL:NI;0) 273.00 -40100+0.6667*GHSERAL# +0.3333*GHSERNI#; 6000.00 N REF:33 ! PARAMETER G(AL2FE,SI:FE;0) 273.00 -16666.7+0.6667*GHSERSI# +0.3333*GHSERFE#; 6000.00 N REF:36 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL5FE2 $########################################################################### $ PHASE AL5FE2 % 2 0.7143 0.2857 > >> 1 ! CONSTITUENT AL5FE2 : AL%,SI : FE,MN,NI : ! PARAMETER G(AL5FE2,AL:FE;0) 273.00 -32607.14+6.99929*T +0.7143*GHSERAL#+0.2857*GHSERFE#; 6000.00 N REF:36 ! PARAMETER G(AL5FE2,AL:MN;0) 273.00 +0.7143*GHSERAL# +0.2857*GHSERMN#; 6000.00 N REF:31 ! PARAMETER G(AL5FE2,AL:NI;0) 273.00 +144900-26*T +0.7143*GHSERAL#+0.2857*GHSERNI#; 6000.00 N REF:33 ! PARAMETER G(AL5FE2,SI:FE;0) 273.00 -16629.7 +0.7143*GHSERSI#+0.2857*GHSERFE#; 6000.00 N REF:36 ! PARAMETER L(AL5FE2,AL:FE,NI;0) 273.00 -164100; 6000.00 N REF:33 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL5FE4 $########################################################################### $ PHASE AL5FE4 % 1 1 > >> 1 ! CONSTITUENT AL5FE4 : AL%,FE%,MN : ! PARAMETER G(AL5FE4,AL;0) 273.00 +12178.90-4.813*T+GHSERAL#; 6000.00 N REF:31 ! PARAMETER G(AL5FE4,FE;0) 273.00 +5009.03+GHSERFE#; 6000.00 N REF:31 ! PARAMETER G(AL5FE4,MN;0) 273.00 -4440.0+133.007*T-24.5177*T*LN(T) -0.006*T**2+69600*T**(-1); 6000.00 N REF:31 ! PARAMETER L(AL5FE4,AL,FE;0) 273.00 -131649+29.4833*T; 6000.00 N REF:31 ! PARAMETER L(AL5FE4,AL,FE;1) 273.00 -18619.5; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL8FEMNSI2 $########################################################################### $ PHASE AL8FEMNSI2 % 4 0.69565 0.08696 0.08696 0.130435 > Intermetallic alpha_AlMnSi phase reported to crystallize during undercooling of Al-Si-Fe-Mn alloys. [REF:C18] Has higher Si than cubic alpha-phase ALCRFEMNSI_A. Relevant in simulations of high-Si Al-alloys, such as A356. >> 3 ! CONSTITUENT AL8FEMNSI2 : AL : FE : MN : SI : ! PARAMETER G(AL8FEMNSI2,AL:FE:MN:SI;0) 273.00 -22000+2*T+0.69565*GHSERAL# +0.08696*GHSERFE#+0.08696*GHSERMN#+0.130435*GHSERSI#; 6000.00 N REF:pov13 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALFENI_T2 $########################################################################### $ PHASE ALFENI_T2 % 2 0.7143 0.2857 > >> 1 ! CONSTITUENT ALFENI_T2 : AL : FE,NI : ! PARAMETER G(ALFENI_T2,AL:FE;0) 273.00 -29400+4.9*T +0.7143*GHSERAL#+.2857*GHSERFE#; 6000.00 N REF:33 ! PARAMETER G(ALFENI_T2,AL:NI;0) 273.00 -41230+7.7*T +0.7143*GHSERAL#+.2857*GHSERNI#; 6000.00 N REF:33 ! PARAMETER L(ALFENI_T2,AL:FE,NI;0) 273.00 -11900; 6000.00 N REF:33 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALFENI_T3 $########################################################################### $ PHASE ALFENI_T3 % 3 0.71 0.05 0.24 > >> 1 ! CONSTITUENT ALFENI_T3 : AL : FE : NI : ! PARAMETER G(ALFENI_T3,AL:FE:NI;0) 273.00 -41000+3*T +0.71*GHSERAL#+0.05*GHSERFE#+0.24*GHSERNI#; 6000.00 N REF:33 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALFESI_T1 $########################################################################### $ PHASE ALFESI_T1 % 2 0.625 0.375 > >> 1 ! CONSTITUENT ALFESI_T1 : AL,SI : FE : ! PARAMETER G(ALFESI_T1,AL:FE;0) 273.00 -22698.4 +0.625*GHSERAL#+0.375*GHSERFE#; 6000.00 N REF:36 ! PARAMETER G(ALFESI_T1,SI:FE;0) 273.00 -14651.3 +0.625*GHSERSI#+0.375*GHSERFE#; 6000.00 N REF:36 ! PARAMETER L(ALFESI_T1,AL,SI:FE;0) 273.00 -45346.3+0.9465*T; 6000.00 N REF:36 ! PARAMETER L(ALFESI_T1,AL,SI:FE;1) 273.00 +31401.9-16.83733*T; 6000.00 N REF:36 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALFESI_T2 $########################################################################### $ PHASE ALFESI_T2 % 4 0.5 0.2 0.1 0.2 > >> 1 ! CONSTITUENT ALFESI_T2 : AL : FE : SI : AL,SI : ! PARAMETER G(ALFESI_T2,AL:FE:SI:AL;0) 273.00 -27300+6.8*T +0.7*GHSERAL#+0.2*GHSERFE#+0.1*GHSERSI#; 6000.00 N REF:76 ! PARAMETER G(ALFESI_T2,AL:FE:SI:SI;0) 273.00 -28700+8*T +0.5*GHSERAL#+0.2*GHSERFE#+0.3*GHSERSI#; 6000.00 N REF:76 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALFESI_T3 $########################################################################### $ PHASE ALFESI_T3 % 3 0.55 0.25 0.20 > >> 1 ! CONSTITUENT ALFESI_T3 : AL : FE : SI : ! PARAMETER G(ALFESI_T3,AL:FE:SI;0) 273.00 -24987.74-0.88568*T +0.55*GHSERAL#+0.25*GHSERFE#+0.2*GHSERSI#; 6000.00 N REF:36 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALFESI_T4 $########################################################################### $ PHASE ALFESI_T4 % 4 0.4166 0.1667 0.25 0.1667 > >> 1 ! CONSTITUENT ALFESI_T4 : AL : FE : SI : AL,SI : ! PARAMETER G(ALFESI_T4,AL:FE:SI:AL;0) 273.00 -18100 +0.5833*GHSERAL#+0.1667*GHSERFE#+0.25*GHSERSI#; 6000.00 N REF:76 ! PARAMETER G(ALFESI_T4,AL:FE:SI:SI;0) 273.00 -24700+7*T +0.4166*GHSERAL#+0.1667*GHSERFE#+0.4167*GHSERSI#; 6000.00 N REF:76 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALFESI_T5 $########################################################################### $ PHASE ALFESI_T5 % 4 0.66 0.19 0.05 0.1 > hexagonal alpha-AlFeSi end-member >> 2 ! CONSTITUENT ALFESI_T5 : AL : FE : SI : AL,SI : ! PARAMETER G(ALFESI_T5,AL:FE:SI:AL;0) 273.00 -27788+8.856*T+0.76*GHSERAL# +0.19*GHSERFE#+0.05*GHSERSI#; 6000.00 N REF:37 ! PARAMETER G(ALFESI_T5,AL:FE:SI:SI;0) 273.00 -26500+6.135*T+0.66*GHSERAL# +0.19*GHSERFE#+0.15*GHSERSI#; 6000.00 N REF:37 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALFESI_T7 $########################################################################### $ PHASE ALFESI_T7 % 2 0.75 0.25 > >> 1 ! CONSTITUENT ALFESI_T7 : AL,SI : FE : ! PARAMETER G(ALFESI_T7,AL:FE;0) 273.00 -20798.1+0.75*GHSERAL# +0.25*GHSERFE#; 6000.00 N REF:36 ! PARAMETER G(ALFESI_T7,SI:FE;0) 273.00 -9592.9+0.75*GHSERSI# +0.25*GHSERFE#; 6000.00 N REF:36 ! PARAMETER L(ALFESI_T7,AL,SI:FE;0) 273.00 -29786.8+8.75305*T; 6000.00 N REF:36 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALFESI_T8 $########################################################################### $ PHASE ALFESI_T8 % 2 0.6667 0.3333 > >> 1 ! CONSTITUENT ALFESI_T8 : AL,SI : FE : ! PARAMETER G(ALFESI_T8,AL:FE;0) 273.00 -110.7+0.6667*GHSERAL# +0.3333*GHSERFE#; 6000.00 N REF:36 ! PARAMETER G(ALFESI_T8,SI:FE;0) 273.00 -12111.3+0.6667*GHSERSI# +0.3333*GHSERFE#; 6000.00 N REF:36 ! PARAMETER L(ALFESI_T8,AL,SI:FE;0) 273.00 -87571.1+8.27759*T; 6000.00 N REF:36 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALFESI_T10 $########################################################################### $ PHASE ALFESI_T10 % 3 0.6 0.25 0.15 > >> 1 ! CONSTITUENT ALFESI_T10 : AL : FE : SI : ! PARAMETER G(ALFESI_T10,AL:FE:SI;0) 273.00 -26248 +0.53427*T+0.6*GHSERAL#+0.25*GHSERFE#+0.15*GHSERSI#; 6000.00 N REF:36 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALFESI_T11 $########################################################################### $ PHASE ALFESI_T11 % 3 0.65385 0.23077 0.11539 > >> 1 ! CONSTITUENT ALFESI_T11 : AL : FE : SI : ! PARAMETER G(ALFESI_T11,AL:FE:SI;0) 273.00 -24537+0.07542*T+0.65385*GHSERAL# +0.23077*GHSERFE#+0.11539*GHSERSI#; 6000.00 N REF:36 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL12MG2CR $########################################################################### $ PHASE AL12MG2CR % 3 12 2 1 > dispersoid in AA7xxx >> 3 ! CONSTITUENT AL12MG2CR : AL : MG,SI : CR : ! PARAMETER G(AL12MG2CR,AL:MG:CR;0) 273.00 12*GHSERAL#+2*GHSERMG# +GHSERCR#-110000+5*T; 6000.00 N REF:pov11 ! PARAMETER G(AL12MG2CR,AL:SI:CR;0) 273.00 12*GHSERAL#+2*GHSERSI# +GHSERCR#-75000+5*T; 6000.00 N REF:pov14 ! PARAMETER L(AL12MG2CR,AL:MG,SI:CR;0) 273.00 +1e-8; 6000.00 N REF:pov11 ! PARAMETER L(AL12MG2CR,AL:MG,SI:CR;1) 273.00 +1e-8; 6000.00 N REF:pov11 ! PARAMETER L(AL12MG2CR,AL:MG,SI:CR;2) 273.00 +1e-8; 6000.00 N REF:pov11 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALMGMN_T $########################################################################### $ PHASE ALMGMN_T % 3 0.78261 0.130435 0.08696 > >> 1 ! CONSTITUENT ALMGMN_T : AL : MG : MN : ! PARAMETER G(ALMGMN_T,AL:MG:MN;0) 273.00 -8652.17 +0.78261*GHSERAL#+0.130435*GHSERMG#+0.086957*GHSERMN#; 6000.00 N REF:51 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL4MN $########################################################################### $ PHASE AL4MN % 2 4 1 > Hexagonal >> 2 ! CONSTITUENT AL4MN : AL : FE,MN% : ! PARAMETER G(AL4MN,AL:FE;0) 273.00 -131445+50.0*T+4*GHSERAL# +GHSERFE#; 6000.00 N REF:31 ! PARAMETER G(AL4MN,AL:MN;0) 273.00 -100005+30*T+4*GHSERAL# +GHSERMN#; 6000.00 N REF:31 ! PARAMETER L(AL4MN,AL:FE,MN;0) 273.00 -10000; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL8MN5_D810 $########################################################################### $ PHASE AL8MN5_D810 % 3 12 4 10 > >> 1 ! CONSTITUENT AL8MN5_D810 : AL%,SI : MN : AL,CU,FE,MN,ZN : ! PARAMETER G(AL8MN5_D810,AL:MN:AL;0) 273.00 -308671+56.6488*T+22*GHSERAL# +4*GHSERMN#; 6000.00 N REF:31 ! PARAMETER G(AL8MN5_D810,AL:MN:CU;0) 273.00 -470000+12*GHSERAL# +4*GHSERMN#+10*GHSERCU#; 6000.00 N REF:pov14 ! PARAMETER G(AL8MN5_D810,AL:MN:MN;0) 273.00 -596866.4+94.61192*T+12*GHSERAL# +14*GHSERMN#; 6000.00 N REF:31 ! PARAMETER G(AL8MN5_D810,AL:MN:ZN;0) 273.00 +4*GHSERMN#+10*GHSERZN# +12*GHSERAL#-250000; 6000.00 N REF:pov14 ! PARAMETER G(AL8MN5_D810,SI:MN:MN;0) 273.00 +14*GHSERMN# +12*GHSERSI#; 6000.00 N REF:31 ! PARAMETER G(AL8MN5_D810,AL:MN:FE;0) 273.00 -632544.8484+12.0*GHSERAL# +4.0*GHSERMN#+10.0*GHSERFE#; 6000.00 N REF:31 ! PARAMETER G(AL8MN5_D810,SI:MN:AL;0) 273.00 +10*GHSERAL#+4*GHSERMN# +12*GHSERSI#; 6000.00 N REF:31 ! PARAMETER G(AL8MN5_D810,SI:MN:ZN;0) 273.00 +4*GHSERMN#+10*GHSERZN# +12*GHSERSI#; 6000.00 N REF:pov14 ! PARAMETER L(AL8MN5_D810,AL:MN:AL,CU;0) 273.00 -575000+300*T; 6000.00 N REF:pov14 ! PARAMETER L(AL8MN5_D810,AL:MN:AL,MN;0) 273.00 -546234+387.348*T; 6000.00 N REF:31 ! PARAMETER L(AL8MN5_D810,AL:MN:AL,FE;0) 273.00 -457832.778; 6000.00 N REF:31 ! PARAMETER L(AL8MN5_D810,AL:MN:CU,MN;0) 273.00 +100000; 6000.00 N REF:pov14 ! PARAMETER L(AL8MN5_D810,AL:MN:FE,MN;0) 273.00 -11169.158; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL11MN4 $########################################################################### $ PHASE AL11MN4 % 2 11 4 > >> 1 ! CONSTITUENT AL11MN4 : AL : FE,MN%,ZN : ! PARAMETER G(AL11MN4,AL:FE;0) 273.00 -354702+103.031*T+11*GHSERAL# +4*GHSERFE#; 6000.00 N REF:31 ! PARAMETER G(AL11MN4,AL:MN;0) 273.00 -354690+103.03095*T+11*GHSERAL# +4*GHSERMN#; 6000.00 N REF:31 ! PARAMETER G(AL11MN4,AL:ZN;0) 273.00 +11*GHSERAL# +4*GHSERZN#; 6000.00 N REF:pov14 ! PARAMETER L(AL11MN4,AL:FE,MN;0) 273.00 +1E-10; 6000.00 N REF:31 ! PARAMETER L(AL11MN4,AL:MN,ZN;0) 273.00 -40000; 6000.00 N REF:pov14 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALMNSI_B $########################################################################### $ PHASE ALMNSI_B % 4 15 1 4 6 > Do not use anymore, replaced by most recent descriptions from Ref 76. >> 1 ! CONSTITUENT ALMNSI_B : AL : SI : AL%,SI : MN : ! $ PARAMETER G(ALMNSI_B,AL:SI:AL:MN;0) 273.00 -8.8064800E+05+3.4510400E+03*T -572.749*T*LN(T)-0.201935*T**2+2.00008E-05*T**3+2184750*T**(-1); 6000.00 N REF:31 ! PARAMETER G(ALMNSI_B,AL:SI:SI:MN;0) 273.00 -7.7998000E+05+3.4510400E+03*T -593.657*T*LN(T)-0.16164*T**2+1.35092E-05*T**3+2946120*T**(-1); 6000.00 N REF:31 ! PARAMETER L(ALMNSI_B,AL:SI:AL,SI:MN;0) 273.00 +1.0E-4; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALMNSI_D $########################################################################### $ PHASE ALMNSI_D % 3 2 1 3 > Do not use anymore, replaced by most recent descriptions from Ref 76. >> 1 ! CONSTITUENT ALMNSI_D : AL : MN : SI : ! PARAMETER G(ALMNSI_D,AL:MN:SI;0) 273.00 -70000-20*T+2*GHSERAL# +GHSERMN#+3*GHSERSI#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL3NI2 $########################################################################### $ PHASE AL3NI2 % 3 3 2 1 > >> 1 ! CONSTITUENT AL3NI2 : AL : AL,FE,NI% : NI,VA% : ! PARAMETER G(AL3NI2,AL:AL:NI;0) 273.00 +5*GALBCC#+GNIBCC# -39465.978+7.89525*T; 6000.00 N REF:28 ! PARAMETER G(AL3NI2,AL:NI:NI;0) 273.00 +3*GALBCC#+3*GNIBCC# -427191.9+79.21725*T; 6000.00 N REF:28 ! PARAMETER G(AL3NI2,AL:AL:VA;0) 273.00 +5*GALBCC#+30000-3*T; 6000.00 N REF:28 ! PARAMETER G(AL3NI2,AL:NI:VA;0) 273.00 +3*GALBCC#+2*GNIBCC# -357725.92+68.322*T; 6000.00 N REF:28 ! PARAMETER L(AL3NI2,AL:AL,NI:NI;0) 273.00 -193484.18+131.79*T; 6000.00 N REF:28 ! PARAMETER L(AL3NI2,AL:AL,NI:VA;0) 273.00 -193484.18+131.79*T; 6000.00 N REF:28 ! PARAMETER L(AL3NI2,AL:AL:NI,VA;0) 273.00 -22001.7+7.0332*T; 6000.00 N REF:28 ! PARAMETER L(AL3NI2,AL:NI:NI,VA;0) 273.00 -22001.7+7.0332*T; 6000.00 N REF:28 ! PARAMETER G(AL3NI2,AL:FE:NI;0) 273.00 +3*GHSERAL#+2*GHSERFE# +GHSERNI#+246600-132*T; 6000.00 N REF:33 ! PARAMETER G(AL3NI2,AL:FE:VA;0) 273.00 +3*GHSERAL#+2*GHSERFE#+4620 -66*T; 6000.00 N REF:33 ! PARAMETER L(AL3NI2,AL:FE,NI:NI;0) 273.00 -24420; 6000.00 N REF:33 ! PARAMETER L(AL3NI2,AL:FE,NI:VA;0) 273.00 -24420; 6000.00 N REF:33 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL3NI5 $########################################################################### $ PHASE AL3NI5 % 2 0.375 0.625 > >> 1 ! CONSTITUENT AL3NI5 : AL : NI : ! PARAMETER G(AL3NI5,AL:NI;0) 273.00 +0.375*GHSERAL#+0.625*GHSERNI# -55507.7594+7.2648103*T; 6000.00 N REF:28 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALM_D019 $########################################################################### $ PHASE ALM_D019 % 2 3 1 > >> 1 ! CONSTITUENT ALM_D019 : AL,CR,TI% : AL%,CR,TI : ! PARAMETER G(ALM_D019,AL:AL;0) 273.00 +4.0*GALHCP#; 6000.00 N REF:31 ! PARAMETER G(ALM_D019,CR:CR;0) 273.00 +4.0*GCRHCP#; 6000.00 N REF:31 ! PARAMETER G(ALM_D019,TI:TI;0) 273.00 +4+4.0*GHSERTI#; 6000.00 N REF:31 ! PARAMETER G(ALM_D019,AL:CR;0) 273.00 +3*GALHCP#+GCRHCP#; 6000.00 N REF:31 ! PARAMETER G(ALM_D019,CR:AL;0) 273.00 +GALHCP#+3.0*GCRHCP#; 6000.00 N REF:31 ! PARAMETER G(ALM_D019,TI:AL;0) 273.00 -110080+23.88*T+GHSERAL# +3.0*GHSERTI#; 6000.00 N REF:31 ! PARAMETER G(ALM_D019,AL:TI;0) 273.00 -99120.0+32.28*T+3.0*GHSERAL# +GHSERTI#; 6000.00 N REF:31 ! PARAMETER G(ALM_D019,CR:TI;0) 273.00 +3.0*GCRHCP#+GHSERTI#; 6000.00 N REF:31 ! PARAMETER G(ALM_D019,TI:CR;0) 273.00 +GCRHCP#+3.0*GHSERTI#; 6000.00 N REF:31 ! PARAMETER L(ALM_D019,AL:AL,CR;0) 273.00 +1.0E-4; 6000.00 N REF:31 ! PARAMETER L(ALM_D019,AL,CR:AL;0) 273.00 +1.0E-4; 6000.00 N REF:31 ! PARAMETER L(ALM_D019,CR:AL,CR;0) 273.00 +1.0E-4; 6000.00 N REF:31 ! PARAMETER L(ALM_D019,AL,CR:CR;0) 273.00 +1.0E-4; 6000.00 N REF:31 ! PARAMETER L(ALM_D019,AL,TI:AL;0) 273.00 -298200+100*T; 6000.00 N REF:31 ! PARAMETER L(ALM_D019,AL:AL,TI;0) 273.00 -98968+33.3*T; 6000.00 N REF:31 ! PARAMETER L(ALM_D019,TI:AL,TI;0) 273.00 +10656-1.332*T; 6000.00 N REF:31 ! PARAMETER L(ALM_D019,AL,TI:TI;0) 273.00 +32000-4*T; 6000.00 N REF:31 ! PARAMETER L(ALM_D019,TI:CR,TI;0) 273.00 +8125; 6000 N REF:31 ! PARAMETER L(ALM_D019,CR:CR,TI;0) 273.00 +8125; 6000 N REF:31 ! PARAMETER L(ALM_D019,CR,TI:TI;0) 273.00 +73125; 6000 N REF:31 ! PARAMETER L(ALM_D019,CR,TI:CR;0) 273.00 +73125; 6000 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL3M_D022 $########################################################################### $ PHASE AL3M_D022 % 2 3 1 > >> 1 ! CONSTITUENT AL3M_D022 : AL,TI : CR,TI : ! PARAMETER G(AL3M_D022,AL:CR;0) 273.00 -53000 +3*GHSERAL#+GHSERCR#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALSIZR_T1 $########################################################################### $ PHASE ALSIZR_T1 % 2 0.75 0.25 > >> 2 ! CONSTITUENT ALSIZR_T1 : AL,SI : ZR : ! PARAMETER G(ALSIZR_T1,AL:ZR;0) 273.00 -43506+10*T +0.75*GHSERAL#+0.25*GHSERZR#; 6000.00 N REF:pov14 ! PARAMETER G(ALSIZR_T1,SI:ZR;0) 273.00 -18349 +0.75*GHSERSI#+0.25*GHSERZR#; 6000.00 N REF:83 ! PARAMETER L(ALSIZR_T1,AL,SI:ZR;0) 273.00 -36300; 6000.00 N REF:pov14 ! PARAMETER L(ALSIZR_T1,AL,SI:ZR;1) 273.00 -5000-7*T; 6000.00 N REF:83 ! PARAMETER L(ALSIZR_T1,AL,SI:ZR;2) 273.00 -40000; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALSIZR_T2 $########################################################################### $ PHASE ALSIZR_T2 % 2 0.5 0.5 > >> 1 ! CONSTITUENT ALSIZR_T2 : AL,SI : ZR : ! PARAMETER G(ALSIZR_T2,AL:ZR;0) 273.00 -43900+7.58*T +0.5*GHSERAL#+0.5*GHSERZR#; 6000.00 N REF:pov14 ! PARAMETER G(ALSIZR_T2,SI:ZR;0) 273.00 -90600+127.63*T -22.593155*T*LN(T)-0.0021969325*T**2+2.748495E-11*T**3 -74258.25*T**(-1); 6000.00 N REF:83 ! PARAMETER L(ALSIZR_T2,AL,SI:ZR;0) 273.00 -24300+15*T; 6000.00 N REF:pov14 ! PARAMETER L(ALSIZR_T2,AL,SI:ZR;1) 273.00 +30000+20*T; 6000.00 N REF:83 ! PARAMETER L(ALSIZR_T2,AL,SI:ZR;2) 273.00 +20*T; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL4SI5ZR3 $########################################################################### $ PHASE AL4SI5ZR3 % 3 0.333 0.417 0.25 > >> 2 ! CONSTITUENT AL4SI5ZR3 : AL : SI : ZR : ! PARAMETER G(AL4SI5ZR3,AL:SI:ZR;0) 273.00 -55400+8*T +0.333*GHSERAL#+0.417*GHSERSI#+0.25*GHSERZR#; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALTI $########################################################################### $ TYPE_DEFINITION I GES A_P_D ALTI MAGNETIC -1.0 0.400 ! PHASE ALTI %I 2 1 1 > >> 1 ! CONSTITUENT ALTI : AL%,CR,TI : AL,CR%,TI% : ! PARAMETER G(ALTI,AL:AL;0) 273.00 +2*GHSERAL#+4.0; 6000.00 N REF:31 ! PARAMETER G(ALTI,CR:CR;0) 273.00 +2*GCRFCC#+4.0; 6000.00 N REF:31 ! PARAMETER G(ALTI,TI:TI;0) 29.15 +2*GTIFCC#; 6000.00 N REF:31 ! PARAMETER G(ALTI,AL:CR;0) 273.00 -25000+3.0*T+GHSERAL#+GCRFCC#; 6000.00 N REF:31 ! PARAMETER G(ALTI,CR:AL;0) 273.00 -25000+3.0*T+GHSERAL#+GCRFCC#; 6000.00 N REF:31 ! PARAMETER G(ALTI,TI:AL;0) 273.00 -79644.0+19.2*T+GHSERAL# +GHSERTI#; 6000.00 N REF:31 ! PARAMETER G(ALTI,AL:TI;0) 273.00 -79644.0+19.2*T+GHSERAL# +GHSERTI#; 6000.00 N REF:31 ! PARAMETER G(ALTI,CR:TI;0) 273.00 +15000-13.85*T+GCRFCC#+GTIFCC#; 6000.00 N REF:31 ! PARAMETER G(ALTI,TI:CR;0) 273.00 +15000-13.85*T+GCRFCC#+GTIFCC#; 6000.00 N REF:31 ! PARAMETER L(ALTI,AL:AL,CR;0) 273.00 +1E-4; 6000.00 N REF:31 ! PARAMETER L(ALTI,CR:AL,CR;0) 273.00 +1E-4; 6000.00 N REF:31 ! PARAMETER L(ALTI,AL,CR:AL;0) 273.00 +1E-4; 6000.00 N REF:31 ! PARAMETER L(ALTI,AL,CR:CR;0) 273.00 +1E-4; 6000.00 N REF:31 ! PARAMETER L(ALTI,AL,TI:AL;0) 273.00 -89892+44*T; 6000.00 N REF:31 ! PARAMETER L(ALTI,AL,TI:AL;1) 273.00 +30000; 6000.00 N REF:31 ! PARAMETER L(ALTI,AL,TI:AL;2) 273.00 +20000; 6000.00 N REF:31 ! PARAMETER L(ALTI,AL:AL,TI;0) 273.00 -89892+44*T; 6000.00 N REF:31 ! PARAMETER L(ALTI,AL:AL,TI;1) 273.00 +30000; 6000.00 N REF:31 ! PARAMETER L(ALTI,AL:AL,TI;2) 273.00 +20000; 6000.00 N REF:31 ! PARAMETER L(ALTI,TI:AL,TI;0) 273.00 -15134-2.36*T; 6000.00 N REF:31 ! PARAMETER L(ALTI,AL,TI:TI;0) 273.00 -15134-2.36*T; 6000.00 N REF:31 ! PARAMETER L(ALTI,CR:CR,TI;0) 273.00 -15000+13.85*T; 6000.00 N REF:31 ! PARAMETER L(ALTI,TI:CR,TI;0) 273.00 -15000+13.85*T; 6000.00 N REF:31 ! PARAMETER L(ALTI,CR,TI:CR;0) 273.00 -15000+13.85*T; 6000.00 N REF:31 ! PARAMETER L(ALTI,CR,TI:TI;0) 273.00 -15000+13.85*T; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL2TI $########################################################################### $ PHASE AL2TI % 2 2 1 > >> 1 ! CONSTITUENT AL2TI : AL : TI : ! PARAMETER G(AL2TI,AL:TI;0) 273.00 -121500+31.2*T+2*GHSERAL# +GHSERTI#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL11TI5 $########################################################################### $ PHASE AL11TI5 % 2 17 8 > >> 1 ! CONSTITUENT AL11TI5 : AL : TI : ! PARAMETER G(AL11TI5,AL:TI;0) 273.00 -971125+236.4*T+17*GHSERAL# +8*GHSERTI#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALZNCU_G_H $########################################################################### $ PHASE ALZNCU_G_H % 3 4 1 8 > >> 1 ! CONSTITUENT ALZNCU_G_H : AL%,ZN : AL,CU% : CU : ! PARAMETER G(ALZNCU_G_H,AL:AL:CU;0) 273.00 -219258-45.5*T+5*GHSERAL# +8*GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(ALZNCU_G_H,AL:CU:CU;0) 273.00 -200460-58.5*T+4*GHSERAL# +9*GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(ALZNCU_G_H,ZN:CU:CU;0) 273.00 +1.0E-4; 6000.00 N REF:31 ! PARAMETER G(ALZNCU_G_H,ZN:AL:CU;0) 273.00 +1.0E-4; 6000.00 N REF:31 ! PARAMETER L(ALZNCU_G_H,AL:AL,CU:CU;0) 273.00 +1E-10; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALZR $########################################################################### $ PHASE ALZR % 2 0.5 0.5 > >> 1 ! CONSTITUENT ALZR : AL : ZR : ! PARAMETER G(ALZR,AL:ZR;0) 273.00 -44200+7.58*T+0.5*GHSERAL# +0.5*GHSERZR#; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALZR2 $########################################################################### $ PHASE ALZR2 % 2 0.333 0.667 > >> 1 ! CONSTITUENT ALZR2 : AL : ZR : ! PARAMETER G(ALZR2,AL:ZR;0) 273.00 -33058+4.72*T+0.333*GHSERAL# +0.667*GHSERZR#; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: ALZR3 $########################################################################### $ PHASE ALZR3 % 2 0.25 0.75 > >> 1 ! CONSTITUENT ALZR3 : AL : ZR : ! PARAMETER G(ALZR3,AL:ZR;0) 273.00 -27090+5.05*T+0.25*GHSERAL# +0.75*GHSERZR#; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL2ZR $########################################################################### $ PHASE AL2ZR % 2 0.667 0.333 > >> 1 ! CONSTITUENT AL2ZR : AL : ZR : ! PARAMETER G(AL2ZR,AL:ZR;0) 273.00 -46126+8.15*T+0.667*GHSERAL# +0.333*GHSERZR#; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL2ZR3 $########################################################################### $ PHASE AL2ZR3 % 2 0.4 0.6 > >> 1 ! CONSTITUENT AL2ZR3 : AL : ZR : ! PARAMETER G(AL2ZR3,AL:ZR;0) 273.00 -39000+5.8*T+0.4*GHSERAL# +0.6*GHSERZR#; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL3ZR2 $########################################################################### $ PHASE AL3ZR2 % 2 0.6 0.4 > >> 1 ! CONSTITUENT AL3ZR2 : AL : ZR : ! PARAMETER G(AL3ZR2,AL:ZR;0) 273.00 -45400+7.5*T+0.6*GHSERAL# +0.4*GHSERZR#; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL3ZR4 $########################################################################### $ PHASE AL3ZR4 % 2 0.42857 0.57143 > >> 1 ! CONSTITUENT AL3ZR4 : AL : ZR : ! PARAMETER G(AL3ZR4,AL:ZR;0) 273.00 -42475+7.63*T+0.42857*GHSERAL# +0.57143*GHSERZR#; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL3ZR5 $########################################################################### $ PHASE AL3ZR5 % 2 0.375 0.625 > >> 1 ! CONSTITUENT AL3ZR5 : AL : ZR : ! PARAMETER G(AL3ZR5,AL:ZR;0) 273.00 -36248+5*T+0.375*GHSERAL# +0.625*GHSERZR#; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: AL4ZR5 $########################################################################### $ PHASE AL4ZR5 % 2 0.444 0.556 > >> 1 ! CONSTITUENT AL4ZR5 : AL : ZR : ! PARAMETER G(AL4ZR5,AL:ZR;0) 273.00 -40800+5.85*T+0.444*GHSERAL# +0.556*GHSERZR#; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: BETA_AL3MG2 $########################################################################### $ PHASE BETA_AL3MG2 % 2 89 140 > Cubic (Al,Zn)3Mg2 equilibrium phase, prototype: Al3Mg2. >> 2 ! CONSTITUENT BETA_AL3MG2 : MG : AL%,ZN : ! PARAMETER G(BETA_AL3MG2,MG:AL;0) 273.00 -246175.0-675.5500*T +89*GHSERMG#+140*GHSERAL#; 6000.00 N REF:31 ! PARAMETER G(BETA_AL3MG2,MG:ZN;0) 273.00 +206100+89*GHSERMG# +140*GHSERZN#; 6000.00 N REF:31 ! PARAMETER L(BETA_AL3MG2,MG:AL,ZN;0) 273.00 -1717500+343.5*T; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CR3MN5 $########################################################################### $ PHASE CR3MN5 % 2 3 5 > >> 1 ! CONSTITUENT CR3MN5 : CR : MN : ! PARAMETER G(CR3MN5,CR:MN;0) 273.00 -72550+21.1732*T+3*GHSERCR# +5*GHSERMN#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CR3SI $########################################################################### $ PHASE CR3SI % 2 3 1 > >> 1 ! CONSTITUENT CR3SI : CR,SI : AL,CR,SI : ! PARAMETER G(CR3SI,CR:AL;0) 273.00 +GHSERCR#+GHSERAL#+2*GHSERCR# -45279.2+6623.6; 6000.00 N REF:69 ! PARAMETER G(CR3SI,CR:CR;0) 273.00 +4*GHSERCR#+20000+10*T; 6000.00 N REF:69 ! PARAMETER G(CR3SI,CR:SI;0) 273.00 +3*GHSERCR#+GHSERSI#-125904.402 +5.14171*T; 6000.00 N REF:69 ! PARAMETER G(CR3SI,SI:AL;0) 273.00 +3*GHSERSI#+GHSERAL#+20000; 6000.00 N REF:69 ! PARAMETER G(CR3SI,SI:CR;0) 273.00 +3*GHSERSI#+GHSERCR#+561830.369 -61.07749*T; 6000.00 N REF:69 ! PARAMETER G(CR3SI,SI:SI;0) 273.00 +4*GHSERSI#+415925.967 -65.93576*T; 6000.00 N REF:69 ! PARAMETER L(CR3SI,CR,SI:CR;0) 273.00 -391881.445; 6000.00 N REF:69 ! PARAMETER L(CR3SI,CR,SI:SI;0) 273.00 -391881.445; 6000.00 N REF:69 ! $ $########################################################################### $ THERMODYNAMIC DATA: CR5SI3 $########################################################################### $ PHASE CR5SI3 % 2 5 3 > >> 1 ! CONSTITUENT CR5SI3 : CR : SI : ! PARAMETER G(CR5SI3,CR:SI;0) 273.00 -316433.0+1065.82816*T-182.578184*T*LN(T) -23.919688E-3*T**2-2.31728E-06*T**3; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CRSI $########################################################################### $ PHASE CRSI % 2 1 1 > >> 1 ! CONSTITUENT CRSI : CR : SI : ! PARAMETER G(CRSI,CR:SI;0) 273.00 -78732.28+311.58392*T-51.62865*T*LN(T) -4.47355E-03*T**2+391330*T**(-1); 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CRSI2 $########################################################################### $ PHASE CRSI2 % 2 1 2 > >> 1 ! CONSTITUENT CRSI2 : CR,SI : CR,SI : ! PARAMETER G(CRSI2,CR:CR;0) 273.00 +10000.00-1.0*T+3.0*GHSERCR#; 6000.00 N REF:31 ! PARAMETER G(CRSI2,CR:SI;0) 273.00 -96694.43+333.33835*T-57.855747*T*LN(T) -13.22769E-03*T**2-0.43203E-06*T**3; 6000.00 N REF:31 ! PARAMETER G(CRSI2,SI:CR;0) 273.00 +148569.93-12.65342*T+2*GHSERCR# +GHSERSI#; 6000.00 N REF:31 ! PARAMETER G(CRSI2,SI:SI;0) 273.00 +78860.26-15.77206*T +3*GHSERSI#; 6000.00 N REF:31 ! PARAMETER L(CRSI2,CR:CR,SI;0) 273.00 -35879.97+7.17599*T; 6000.00 N REF:31 ! PARAMETER L(CRSI2,SI:CR,SI;0) 273.00 -35879.97+7.17599*T; 6000.00 N REF:31 ! PARAMETER L(CRSI2,CR,SI:CR;0) 273.00 +1.0E-4; 6000.00 N REF:31 ! PARAMETER L(CRSI2,CR,SI:SI;0) 273.00 +1.0E-4; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CRZN13 $########################################################################### $ PHASE CRZN13 % 2 1 13 > >> 1 ! CONSTITUENT CRZN13 : CR : ZN : ! PARAMETER G(CRZN13,CR:ZN;0) 273.00 -9800.0+1E-10*T+GHSERCR# +13*GHSERZN#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CRZN17 $########################################################################### $ PHASE CRZN17 % 2 1 17 > >> 1 ! CONSTITUENT CRZN17 : CR : ZN : ! PARAMETER G(CRZN17,CR:ZN;0) 273.00 -11700.0+1E-10*T+GHSERCR# +17*GHSERZN#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CUMGSI_S $########################################################################### $ PHASE CUMGSI_S % 3 16 6 7 > >> 1 ! CONSTITUENT CUMGSI_S : CU : MG : SI : ! PARAMETER G(CUMGSI_S,CU:MG:SI;0) 273.00 -559636+110.94*T +16*GHSERCU#+6*GHSERMG#+7*GHSERSI#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CUMGSI_T $########################################################################### $ PHASE CUMGSI_T % 3 3 2 1 > >> 1 ! CONSTITUENT CUMGSI_T : CU : MG : SI : ! PARAMETER G(CUMGSI_T,CU:MG:SI;0) 273.00 -141720+20.26*T +3*GHSERCU#+2*GHSERMG#+GHSERSI#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CU15SI4_E $########################################################################### $ PHASE CU15SI4_E % 2 0.789474 0.210526 > >> 1 ! CONSTITUENT CU15SI4_E : CU : AL,SI : ! PARAMETER G(CU15SI4_E,CU:SI;0) 273.00 +0.789474*GHSERCU#+0.210526*GHSERSI# +1241-6.7191*T; 6000.00 N REF:38 ! PARAMETER G(CU15SI4_E,CU:AL;0) 273.00 +0.789474*GHSERCU#+0.210526*GHSERAL# -12693.0555-1.5*T; 6000.00 N REF:56 ! $ $########################################################################### $ THERMODYNAMIC DATA: CU19SI6_ETA $########################################################################### $ PHASE CU19SI6_ETA % 2 0.76 0.24 > >> 1 ! CONSTITUENT CU19SI6_ETA : CU : SI : ! PARAMETER G(CU19SI6_ETA,CU:SI;0) 273.00 +0.76*GHSERCU#+0.24*GHSERSI# +1367.7-7.1976*T; 6000.00 N REF:38 ! $ $########################################################################### $ THERMODYNAMIC DATA: CU33SI7_D $########################################################################### $ PHASE CU33SI7_D % 2 0.825 0.175 > >> 1 ! CONSTITUENT CU33SI7_D : CU : SI : ! PARAMETER G(CU33SI7_D,CU:SI;0) 273.00 +0.825*GHSERCU#+0.175*GHSERSI# +1972.4-6.9664*T; 6000.00 N REF:38 ! $ $########################################################################### $ THERMODYNAMIC DATA: CU56SI11_G $########################################################################### $ PHASE CU56SI11_G % 2 0.8358 0.1642 > >> 1 ! CONSTITUENT CU56SI11_G : CU : SI : ! PARAMETER G(CU56SI11_G,CU:SI;0) 273.00 +10046.5-5.8747*T +0.8358*GHSERCU#+0.1642*GHSERSI#; 6000.00 N REF:38 ! $ $########################################################################### $ THERMODYNAMIC DATA: CUZN_G $########################################################################### $ PHASE CUZN_G % 4 2 2 3 6 > >> 1 ! CONSTITUENT CUZN_G : CU%,ZN : CU,ZN% : CU : MG,ZN : ! PARAMETER G(CUZN_G,CU:CU:CU:MG;0) 273.00 -64720.63-51.34862*T +7*GHSERCU#+6*GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(CUZN_G,CU:CU:CU:ZN;0) 273.00 -118720.63-42.34862*T +7*GHSERCU#+6*GHSERZN#; 6000.00 N REF:31 ! PARAMETER G(CUZN_G,ZN:CU:CU:ZN;0) 273.00 -44142.23-68.4538*T +5*GHSERCU#+8*GHSERZN#; 6000.00 N REF:31 ! PARAMETER G(CUZN_G,CU:ZN:CU:ZN;0) 273.00 -150185.23-21.81712*T +5*GHSERCU#+8*GHSERZN#; 6000.00 N REF:31 ! PARAMETER G(CUZN_G,ZN:ZN:CU:ZN;0) 273.00 -75606.83-47.9223*T +3*GHSERCU#+10*GHSERZN#; 6000.00 N REF:31 ! PARAMETER G(CUZN_G,ZN:CU:CU:MG;0) 273.00 +9857.77-77.4538*T +5*GHSERCU#+6*GHSERMG#+2*GHSERZN#; 6000.0 N REF:31 ! PARAMETER G(CUZN_G,CU:ZN:CU:MG;0) 273.00 -96185.23-30.81712*T +5*GHSERCU#+6*GHSERMG#+2*GHSERZN#; 6000.0 N REF:31 ! PARAMETER G(CUZN_G,ZN:ZN:CU:MG;0) 273.00 -21606.83-56.9223*T +3*GHSERCU#+6*GHSERMG#+4*GHSERZN#; 6000.00 N REF:31 ! PARAMETER L(CUZN_G,CU:CU,ZN:CU:ZN;0) 273.00 +1E-4; 6000 N REF:31 ! PARAMETER L(CUZN_G,ZN:CU,ZN:CU:ZN;0) 273.00 +1E-4; 6000 N REF:31 ! PARAMETER L(CUZN_G,CU,ZN:CU:CU:ZN;0) 273.00 +1E-4; 6000 N REF:31 ! PARAMETER L(CUZN_G,CU,ZN:ZN:CU:ZN;0) 273.00 +1E-4; 6000 N REF:31 ! PARAMETER L(CUZN_G,CU:CU:CU:MG,ZN;0) 273.00 +1E-4; 3000.00 N REF:31 ! PARAMETER L(CUZN_G,CU:CU,ZN:CU:MG;0) 273.00 +1E-4; 3000.00 N REF:31 ! PARAMETER L(CUZN_G,CU,ZN:CU:CU:MG;0) 273.00 +1E-4; 3000.00 N REF:31 ! PARAMETER L(CUZN_G,CU:ZN:CU:MG,ZN;0) 273.00 +1E-4; 3000.00 N REF:31 ! PARAMETER L(CUZN_G,CU,ZN:ZN:CU:MG;0) 273.00 +1E-4; 3000.00 N REF:31 ! PARAMETER L(CUZN_G,ZN:CU:CU:MG,ZN;0) 273.00 +1E-4; 3000.00 N REF:31 ! PARAMETER L(CUZN_G,ZN:CU,ZN:CU:MG;0) 273.00 +1E-4; 3000.00 N REF:31 ! PARAMETER L(CUZN_G,ZN:ZN:CU:MG,ZN;0) 273.00 +1E-4; 3000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CUZR $########################################################################### $ PHASE CUZR % 2 1 1 > >> 1 ! CONSTITUENT CUZR : CU : ZR : ! PARAMETER G(CUZR,CU:ZR;0) 273.00 -20104.24-7.63196*T+GHSERCU# +GHSERZR#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CUZR2 $########################################################################### $ PHASE CUZR2 % 2 1 2 > >> 1 ! CONSTITUENT CUZR2 : CU : ZR : ! PARAMETER G(CUZR2,CU:ZR;0) 273.00 -43904.01+5.19051*T+GHSERCU# +2*GHSERZR#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CU5ZR $########################################################################### $ PHASE CU5ZR % 2 5 1 > >> 1 ! CONSTITUENT CU5ZR : CU : ZR : ! PARAMETER G(CU5ZR,CU:ZR;0) 273.00 -61794.0+5*GHSERCU#+GHSERZR#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CU8ZR3 $########################################################################### $ PHASE CU8ZR3 % 2 8 3 > >> 1 ! CONSTITUENT CU8ZR3 : CU : ZR : ! PARAMETER G(CU8ZR3,CU:ZR;0) 273.00 -1.480631E+05+8*GHSERCU# +3*GHSERZR#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CU10ZR7 $########################################################################### $ PHASE CU10ZR7 % 2 10 7 > >> 1 ! CONSTITUENT CU10ZR7 : CU : ZR : ! PARAMETER G(CU10ZR7,CU:ZR;0) 273.00 -2.4175E+05+10*GHSERCU# +7*GHSERZR#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: CU51ZR14 $########################################################################### $ PHASE CU51ZR14 % 2 51 14 > >> 1 ! CONSTITUENT CU51ZR14 : CU : ZR : ! PARAMETER G(CU51ZR14,CU:ZR;0) 273.00 -8.434127E+05+51*GHSERCU# +14*GHSERZR#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: E_AL30MG23 $########################################################################### $ PHASE E_AL30MG23 % 2 23 30 > Epsilon equilibrium phase, prototype: Co5Cr2Mo3 >> 1 ! CONSTITUENT E_AL30MG23 : MG : AL%,ZN : ! PARAMETER G(E_AL30MG23,MG:AL;0) 273.00 -52565.4-173.1775*T +23*GHSERMG#+30*GHSERAL#; 6000.00 N REF:31 ! PARAMETER G(E_AL30MG23,MG:ZN;0) 273.00 -318000-63.6*T +23*GHSERMG#+30*GHSERZN#; 6000.00 N REF:40 ! $ $########################################################################### $ THERMODYNAMIC DATA: FESI $########################################################################### $ PHASE FESI % 2 0.5 0.5 > >> 1 ! CONSTITUENT FESI : FE : AL,SI% : ! PARAMETER G(FESI,FE:SI;0) 273.00 -36380.6+2.22*T+0.5*GHSERFE# +0.5*GHSERSI#; 6000.00 N REF:31 ! PARAMETER G(FESI,FE:AL;0) 273.00 +15127.1+0.5*GHSERFE# +0.5*GHSERAL#; 6000.00 N REF:36 ! PARAMETER L(FESI,FE:AL,SI;0) 273.00 -64072.6; 6000.00 N REF:36 ! $ $########################################################################### $ THERMODYNAMIC DATA: FESI2_H $########################################################################### $ PHASE FESI2_H % 2 3 7 > >> 1 ! CONSTITUENT FESI2_H : FE : AL,SI% : ! PARAMETER G(FESI2_H,FE:SI;0) 273.00 -196490.0-9.20*T+3.0*GHSERFE# +7.0*GHSERSI#; 6000.00 N REF:31 ! PARAMETER G(FESI2_H,FE:AL;0) 273.00 -116934+35*T+3.0*GHSERFE# +7.0*GHSERAL#; 6000.00 N REF:37 ! $ $########################################################################### $ THERMODYNAMIC DATA: FESI2_L $########################################################################### $ PHASE FESI2_L % 2 0.3333 0.6667 > >> 1 ! CONSTITUENT FESI2_L : FE : AL,SI% : ! PARAMETER G(FESI2_L,FE:SI;0) 273.00 -27383+3.48*T+0.3333*GHSERFE# +0.6667*GHSERSI#; 6000.00 N REF:31 ! PARAMETER G(FESI2_L,FE:AL;0) 273.00 -16859.9+0.3333*GHSERFE# +0.6667*GHSERAL#; 6000.00 N REF:36 ! $ $########################################################################### $ THERMODYNAMIC DATA: FE2SI $########################################################################### $ PHASE FE2SI % 2 2 1 > >> 1 ! CONSTITUENT FE2SI : FE : SI : ! PARAMETER G(FE2SI,FE:SI;0) 273.00 -71256.6-10.62*T+2*GHSERFE# +GHSERSI#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: FE5SI3 $########################################################################### $ PHASE FE5SI3 % 2 5 3 > >> 1 ! CONSTITUENT FE5SI3 : FE : SI : ! PARAMETER G(FE5SI3,FE:SI;0) 273.00 -241144.0+2.16*T+5*GHSERFE# +3*GHSERSI#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: FETI $########################################################################### $ PHASE FETI % 2 1 1 > >> 1 ! CONSTITUENT FETI : FE : TI : ! PARAMETER G(FETI,FE:TI;0) 273.00 -51584.05+238.686*T-44.858*T*LN(T) -0.008493*T**2+100500*T**(-1); 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: G_AL12MG17 $########################################################################### $ PHASE G_AL12MG17 % 3 10 24 24 > Gamma equilibrium phase, space group: I43m, prototype: Alpha-Mn. Precipitate in Al-Mg-Zn alloy >> 2 ! CONSTITUENT G_AL12MG17 : MG : AL,MG%,ZN : AL%,MG,ZN : ! PARAMETER G(G_AL12MG17,MG:MG:MG;0) 273.00 +266939.2-174.638*T +58*GHSERMG#; 6000.00 N REF:40 ! PARAMETER G(G_AL12MG17,MG:AL:AL;0) 273.00 +195750-203*T +10*GHSERMG#+48*GHSERAL#; 6000.00 N REF:40 ! PARAMETER G(G_AL12MG17,MG:MG:AL;0) 273.00 -105560-101.5*T +34*GHSERMG#+24*GHSERAL#; 6000.00 N REF:40 ! PARAMETER G(G_AL12MG17,MG:AL:MG;0) 273.00 +568249.2-276.138*T +34*GHSERMG#+24*GHSERAL#; 6000.00 N REF:40 ! PARAMETER G(G_AL12MG17,MG:MG:ZN;0) 273.00 -290000+116*T +34*GHSERMG#+24*GHSERZN#; 6000.00 N REF:40 ! PARAMETER G(G_AL12MG17,MG:ZN:MG;0) 273.00 +198599.2+42.862*T +34*GHSERMG#+24*GHSERZN#; 6000.00 N REF:40 ! PARAMETER G(G_AL12MG17,MG:ZN:ZN;0) 273.00 +580000.0 +10*GHSERMG#+48*GHSERZN#; 6000.0 N REF:40 ! PARAMETER G(G_AL12MG17,MG:ZN:AL;0) 273.00 -174000+116*T +10*GHSERMG#+24*GHSERAL#+24*GHSERZN#; 6000.00 N REF:40 ! PARAMETER G(G_AL12MG17,MG:AL:ZN;0) 273.00 +11310+14.5*T +10*GHSERMG#+24*GHSERAL#+24*GHSERZN#; 6000.00 N REF:40 ! PARAMETER L(G_AL12MG17,MG:AL:AL,MG;0) 273.00 +226200-29*T; 6000.00 N REF:40 ! PARAMETER L(G_AL12MG17,MG:MG:AL,MG;0) 273.00 +226200-29*T; 6000.00 N REF:40 ! PARAMETER L(G_AL12MG17,MG:MG,ZN:MG;0) 273.00 -232000+116*T; 6000.00 N REF:40 ! PARAMETER L(G_AL12MG17,MG:MG,ZN:ZN;0) 273.00 -232000+116*T; 6000.00 N REF:40 ! PARAMETER L(G_AL12MG17,MG:ZN:AL,MG;0) 273.00 +226200-29*T; 6000.00 N REF:40 ! PARAMETER L(G_AL12MG17,MG:MG,ZN:AL;0) 273.00 -232000+116*T; 6000.00 N REF:40 ! $ $########################################################################### $ THERMODYNAMIC DATA: LAVES_C15 $########################################################################### $ PHASE LAVES_C15 % 2 2 1 > Complex Laves-phase from COST. >> 1 ! CONSTITUENT LAVES_C15 : AL,CU%,MG,SI,ZN% : AL,CU,MG,SI,ZN : ! PARAMETER G(LAVES_C15,AL:CU;0) 273.00 +15000+2*GHSERAL#+GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,CU:AL;0) 273.00 +15000+2*GHSERCU#+GHSERAL#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,ZN:ZN;0) 273.00 +15000.0+3.0*GHSERZN#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,AL:AL;0) 273.00 +15000.0+3.0*GHSERAL#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,CU:CU;0) 273.00 +15000.0+3.0*GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,MG:MG;0) 273.00 +15000.0+3.0*GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,SI:SI;0) 273.00 +15000.0+3.0*GHSERSI#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,AL:MG;0) 273.00 +30000+4*T+2*GHSERAL# +GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,MG:AL;0) 273.00 +104970.96-16.46448*T+2*GHSERMG# +GHSERAL#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,CU:MG;0) 273.00 -54690.99+364.73085*T -69.276417*T*LN(T) -0.519246E-03*T**2+143502*T**(-1)-5.65953E-6*T**3; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,MG:CU;0) 273.00 +104970.96-16.46448*T+2.0*GHSERMG# +GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,CU:SI;0) 273.00 +15000+2*GHSERCU#+GHSERSI#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,SI:CU;0) 273.00 +15000+2*GHSERSI#+GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,CU:ZN;0) 273.00 +15000+2*GHSERCU#+GHSERZN#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,ZN:CU;0) 273.00 +15000+2*GHSERZN#+GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,MG:SI;0) 273.00 +104970.96-16.46448*T+2*GHSERMG# +GHSERSI#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,SI:MG;0) 273.00 +41039+6.25*T+2*GHSERSI# +GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,ZN:MG;0) 273.00 -25355.45+8.83886*T+2*GHSERZN# +GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C15,MG:ZN;0) 273.00 +55355.45-8.83886*T+2*GHSERMG# +GHSERZN#; 6000.00 N REF:31 ! $ $---------------------------Interaction parameters---------------------- $ PARAMETER L(LAVES_C15,AL,CU:CU;0) 273.00 -105000-1.615*T; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,AL,CU:AL;0) 273.00 -105000-1.615*T; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,AL,MG:MG;0) 273.00 +15000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,AL,MG:AL;0) 273.00 +15000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,MG:AL,MG;0) 273.00 +8000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,AL:AL,MG;0) 273.00 +8000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU,MG:CU;0) 273.00 +13011.35; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU,MG:MG;0) 273.00 +13011.35; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU:CU,MG;0) 273.00 +6599.45; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,MG:CU,MG;0) 273.00 +6599.45; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU,SI:SI;0) 273.00 +15305+20.69*T; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU,SI:CU;0) 273.00 +15305+20.69*T; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU,ZN:ZN;1) 273.00 +25529.06; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU,ZN:CU;0) 273.00 -78824.62; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU,ZN:ZN;0) 273.00 -78824.62; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU,ZN:CU;1) 273.00 +25529.06; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,SI,MG:SI;0) 273.00 +15000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,SI:SI,MG;0) 273.00 +8000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,MG:MG,SI;0) 273.00 +8000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,MG,SI:MG;0) 273.00 +15000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,MG,ZN:MG;0) 273.00 +35000.00; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,MG,ZN:ZN;0) 273.00 +35000.00; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,MG:MG,ZN;0) 273.00 +8000.00; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,ZN:MG,ZN;0) 273.00 +8000.00; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU,MG:AL;0) 273.00 +13011.35; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,AL:CU,MG;0) 273.00 +6599.45; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,AL,MG:CU;0) 273.00 +15000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU:AL,MG;0) 273.00 +8000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,AL,CU:MG;0) 273.00 -180000-1.615*T; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,MG,SI:CU;0) 273.00 +15000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,SI:CU,MG;0) 273.00 +6599.45; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU,SI:MG;0) 273.00 -193131+20.69*T; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU:MG,SI;0) 273.00 +8000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU,MG:SI;0) 273.00 +13011.35; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU,MG:ZN;0) 273.00 +13011.35; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,ZN:CU,MG;0) 273.00 +6599.45; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,MG,ZN:CU;0) 273.00 +35000.00; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU:MG,ZN;0) 273.00 +8000.00; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU,ZN:MG;0) 273.00 -78824.62; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU,ZN:MG;1) 273.00 +25529.06; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU,ZN:MG;2) 273.00 +1e-8; 6000.00 N REF:31 ! PARAMETER L(LAVES_C15,CU:CU,ZN;0) 273.00 +1E-4; 3000.00 N REF:31 ! PARAMETER L(LAVES_C15,MG:CU,ZN;0) 273.00 +1E-4; 3000.00 N REF:31 ! PARAMETER L(LAVES_C15,ZN:CU,ZN;0) 273.00 +1E-4; 3000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: LAVES_C36 $########################################################################### $ PHASE LAVES_C36 % 2 2 1 > Complex Laves-phase from COST. >> 1 ! CONSTITUENT LAVES_C36 : AL,CU%,MG,ZN : AL,CU,MG%,ZN : ! PARAMETER G(LAVES_C36,AL:CU;0) 273.00 +15000+2*GHSERAL#+GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C36,CU:AL;0) 273.00 +15000+2*GHSERCU#+GHSERAL#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C36,AL:AL;0) 273.00 +15000+3*GHSERAL#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C36,CU:CU;0) 273.00 +15000+3*GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C36,MG:MG;0) 273.00 +15000+3*GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C36,ZN:ZN;0) 273.00 +15000+3*GHSERZN#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C36,AL:MG;0) 273.00 +21734+11.02*T +2*GHSERAL#+GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C36,MG:AL;0) 273.00 +84970.96-16.46448*T +2*GHSERMG#+GHSERAL#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C36,CU:MG;0) 273.00 -34690.99+364.73085*T -69.276417*T*LN(T) -5.19246E-04*T**2+143502*T**(-1)-5.65953E-06*T**3; 6000.00 N REF:31 ! PARAMETER G(LAVES_C36,MG:CU;0) 273.00 +84970.96-16.46448*T+2*GHSERMG# +GHSERCU#; 6000.0 N REF:31 ! PARAMETER G(LAVES_C36,CU:ZN;0) 273.00 +15000+2*GHSERCU#+GHSERZN#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C36,ZN:CU;0) 273.00 +15000+2*GHSERZN#+GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C36,ZN:MG;0) 273.00 -33355.45+8.83886*T+2*GHSERZN# +GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(LAVES_C36,MG:ZN;0) 273.00 +63355.45-8.83886*T+2*GHSERMG# +GHSERZN#; 6000.00 N REF:31 ! $ $---------------------------Interaction parameters---------------------- $ PARAMETER L(LAVES_C36,AL,CU:CU;0) 273.00 -126169+14.61*T; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,AL,CU:AL;0) 273.00 -126169+14.61*T; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,AL,MG:MG;0) 273.00 +15000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,AL,MG:AL;0) 273.00 +15000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,MG:AL,MG;0) 273.00 +8000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,AL:AL,MG;0) 273.00 +8000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,CU:CU,MG;0) 273.00 +6599.45; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,MG:CU,MG;0) 273.00 +6599.45; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,CU,MG:CU;0) 273.00 +13011.35; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,CU,MG:MG;0) 273.00 +13011.35; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,CU,ZN:CU;0) 273.00 -90226.26; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,CU,ZN:ZN;0) 273.00 -90226.26; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,MG,ZN:MG;0) 273.00 +35000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,MG,ZN:ZN;0) 273.00 +35000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,MG:MG,ZN;0) 273.00 +8000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,ZN:MG,ZN;0) 273.00 +8000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,CU,MG:AL;0) 273.00 +13011.35; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,AL:CU,MG;0) 273.00 +6599.45; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,AL,MG:CU;0) 273.00 +15000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,CU:AL,MG;0) 273.00 +8000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,AL,CU:MG;0) 273.00 -227442+14.61*T; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,MG,ZN:CU;0) 273.00 +35000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,CU:MG,ZN;0) 273.00 +8000; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,ZN:CU,MG;0) 273.00 +6599.45; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,CU,MG:ZN;0) 273.00 +13011.35; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,CU,ZN:MG;0) 273.00 -90226.26; 6000.00 N REF:31 ! PARAMETER L(LAVES_C36,CU:CU,ZN;0) 273.00 +1E-4; 3000.00 N REF:31 ! PARAMETER L(LAVES_C36,MG:CU,ZN;0) 273.00 +1E-4; 3000.00 N REF:31 ! PARAMETER L(LAVES_C36,ZN:CU,ZN;0) 273.00 +1E-4; 3000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: LC15_CU2MG $########################################################################### $ PHASE LC15_CU2MG % 2 0.6667 0.3333 > Cu2Mg Laves-phase. >> 1 ! CONSTITUENT LC15_CU2MG : CU%,NI,ZN : MG : ! PARAMETER G(LC15_CU2MG,CU:MG;0) 273.00 +0.3333*GHSERMG#+0.6667*GHSERCU# +GCU2MG#; 6000.00 N REF:44 ! PARAMETER G(LC15_CU2MG,NI:MG;0) 273.00 +0.3333*GHSERMG#+0.6667*GHSERNI# +GNI2MG# +5000; 6000.00 N REF:43 ! PARAMETER G(LC15_CU2MG,ZN:MG;0) 273.00 +0.3333*GHSERMG#+0.6667*GHSERZN# +GZN2MG# +5000; 6000.00 N REF:43 ! PARAMETER L(LC15_CU2MG,CU,NI:MG;0) 273.00 -3500+5*T; 6000.00 N REF:43 ! PARAMETER L(LC15_CU2MG,CU,NI:MG;1) 273.00 +2000; 6000.00 N REF:43 ! PARAMETER L(LC15_CU2MG,CU,NI:MG;2) 273.00 +1e-8; 6000.00 N REF:43 ! PARAMETER L(LC15_CU2MG,CU,ZN:MG;0) 273.00 -29000; 6000.00 N REF:43 ! PARAMETER L(LC15_CU2MG,CU,ZN:MG;1) 273.00 +13000; 6000.00 N REF:43 ! PARAMETER L(LC15_CU2MG,CU,ZN:MG;2) 273.00 -2500; 6000.00 N REF:43 ! PARAMETER L(LC15_CU2MG,NI,ZN:MG;0) 273.00 -79500+30*T; 6000.00 N REF:43 ! $ $########################################################################### $ THERMODYNAMIC DATA: LC16_CUMG2 $########################################################################### $ PHASE LC16_CUMG2 % 2 0.3333 0.6667 > Mg2Cu Laves-phase. >> 1 ! CONSTITUENT LC16_CUMG2 : CU%,NI : MG : ! PARAMETER G(LC16_CUMG2,CU:MG;0) 273.00 +0.3333*GHSERCU#+0.6667*GHSERMG# +GCUMG2#; 6000.00 N REF:43 ! PARAMETER G(LC16_CUMG2,NI:MG;0) 273.00 +0.3333*GHSERNI#+0.6667*GHSERMG# +GNIMG2#+2000; 6000.00 N REF:43 ! $ $########################################################################### $ THERMODYNAMIC DATA: LC16_NIMG2 $########################################################################### $ PHASE LC16_NIMG2 % 2 0.3333 0.6667 > Mg2Ni Laves-phase. >> 1 ! CONSTITUENT LC16_NIMG2 : CU,NI% : MG : ! PARAMETER G(LC16_NIMG2,CU:MG;0) 273.00 +0.3333*GHSERCU#+0.6667*GHSERMG# +GCUMG2#+1000; 6000.00 N REF:43 ! PARAMETER G(LC16_NIMG2,NI:MG;0) 273.00 +0.3333*GHSERNI#+0.6667*GHSERMG# +GNIMG2#; 6000.00 N REF:43 ! PARAMETER L(LC16_NIMG2,CU,NI:MG;0) 273.00 -2400; 6000.00 N REF:43 ! PARAMETER L(LC16_NIMG2,CU,NI:MG;1) 273.00 -2600; 6000.00 N REF:43 ! PARAMETER L(LC16_NIMG2,CU,NI:MG;2) 273.00 +1e-8; 6000.00 N REF:43 ! $ $########################################################################### $ THERMODYNAMIC DATA: LC36_NI2MG $########################################################################### $ PHASE LC36_NI2MG % 2 0.6667 0.3333 > Ni2Mg Laves-phase. >> 1 ! CONSTITUENT LC36_NI2MG : CU,NI%,ZN : MG : ! PARAMETER G(LC36_NI2MG,NI:MG;0) 273.00 +0.3333*GHSERMG#+0.6667*GHSERNI# +GNI2MG#; 6000.00 N REF:46 ! PARAMETER G(LC36_NI2MG,CU:MG;0) 273.00 +0.3333*GHSERMG#+0.6667*GHSERCU# +GCU2MG#+5000; 6000.00 N REF:43 ! PARAMETER G(LC36_NI2MG,ZN:MG;0) 273.00 +0.3333*GHSERMG#+0.6667*GHSERZN# +GZN2MG#+1000; 6000.00 N REF:43 ! PARAMETER L(LC36_NI2MG,CU,NI:MG;0) 273.00 -18000-10*T; 6000.00 N REF:43 ! PARAMETER L(LC36_NI2MG,CU,NI:MG;1) 273.00 +2000; 6000.00 N REF:43 ! PARAMETER L(LC36_NI2MG,CU,NI:MG;2) 273.00 +1e-8; 6000.00 N REF:43 ! PARAMETER L(LC36_NI2MG,CU,ZN:MG;0) 273.00 -26600-2*T; 6000.00 N REF:43 ! PARAMETER L(LC36_NI2MG,NI,ZN:MG;0) 273.00 -46000+20*T; 6000.00 N REF:43 ! $ $########################################################################### $ THERMODYNAMIC DATA: MGALZN_PHI $########################################################################### $ PHASE MGALZN_PHI % 2 6 5 > >> 1 ! CONSTITUENT MGALZN_PHI : MG : AL,ZN : ! PARAMETER G(MGALZN_PHI,MG:AL;0) 273.00 -15400-16.5*T+5*GHSERAL# +6*GHSERMG#; 6000.00 N REF:31 ! PARAMETER G(MGALZN_PHI,MG:ZN;0) 273.00 -79530+20.9*T+6*GHSERMG# +5*GHSERZN#; 6000.00 N REF:31 ! PARAMETER L(MGALZN_PHI,MG:AL,ZN;0) 273.00 -23100+11.0*T; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: MGZN $########################################################################### $ PHASE MGZN % 2 12 13 > >> 1 ! CONSTITUENT MGZN : MG : AL,CU,ZN% : ! PARAMETER G(MGZN,MG:AL;0) 273.00 -10000+2.5*T+12*GHSERMG# +13*GHSERAL#; 6000.00 N REF:31 ! PARAMETER G(MGZN,MG:CU;0) 273.00 +12*GHSERMG#+13*GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(MGZN,MG:ZN;0) 273.00 -236980.84+59.24524*T+12*GHSERMG# +13*GHSERZN#; 6000.00 N REF:31 ! PARAMETER L(MGZN,MG:CU,ZN;0) 273.00 -575000; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: MG2ZN3 $########################################################################### $ PHASE MG2ZN3 % 2 2 3 > >> 1 ! CONSTITUENT MG2ZN3 : MG : AL,CU,ZN% : ! PARAMETER G(MG2ZN3,MG:AL;0) 273.00 +1000-0.2*T+2*GHSERMG# +3*GHSERAL#; 6000.00 N REF:31 ! PARAMETER G(MG2ZN3,MG:CU;0) 273.00 +2*GHSERMG#+3*GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(MG2ZN3,MG:ZN;0) 273.00 -54406.20+13.60156*T+2*GHSERMG# +3*GHSERZN#; 6000.00 N REF:31 ! PARAMETER L(MG2ZN3,MG:CU,ZN;0) 273.00 -100000; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: MG2ZN11 $########################################################################### $ PHASE MG2ZN11 % 2 2 11 > >> 1 ! CONSTITUENT MG2ZN11 : MG : AL,CU,ZN% : ! PARAMETER G(MG2ZN11,MG:AL;0) 273.00 +130000-26*T+2*GHSERMG# +11*GHSERAL#; 6000.00 N REF:40 ! PARAMETER G(MG2ZN11,MG:CU;0) 273.00 +2*GHSERMG#+11*GHSERCU#; 6000.00 N REF:31 ! PARAMETER G(MG2ZN11,MG:ZN;0) 273.00 -73818.32+18.45457*T +2*GHSERMG#+11*GHSERZN#; 6000.00 N REF:40 ! PARAMETER L(MG2ZN11,MG:CU,ZN;0) 273.00 -351000; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: MG7ZN3 $########################################################################### $ PHASE MG7ZN3 % 2 51 20 > >> 1 ! CONSTITUENT MG7ZN3 : MG : ZN : ! PARAMETER G(MG7ZN3,MG:ZN;0) 273.00 -335741.54+35.5*T+51*GHSERMG# +20*GHSERZN#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: MNSI $########################################################################### $ PHASE MNSI % 2 1 1 > >> 1 ! CONSTITUENT MNSI : MN : SI : ! PARAMETER G(MNSI,MN:SI;0) 273.00 -78135.144+308.2488*T-52.42121*T*LN(T) -6.903355E-03*T**2+8.764429E+05*T**(-1); 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: MN3SI $########################################################################### $ PHASE MN3SI % 2 3 1 > >> 1 ! CONSTITUENT MN3SI : MN : SI : ! PARAMETER G(MN3SI,MN:SI;0) 273.00 -124189.87+782.4373*T-131.682*T*LN(T) -7.770061E-03*T**2+1.6572E+06*T**(-1); 950.00 Y -1.197406E+05+777.7538*T-131.6820*T*LN(T) -7.770061E-03*T**2+1.6572E+06*T**(-1); 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: MN6SI $########################################################################### $ PHASE MN6SI % 2 17 3 > >> 1 ! CONSTITUENT MN6SI : MN : SI : ! PARAMETER G(MN6SI,MN:SI;0) 273.00 -250180.6+84.8444*T-2.850984E-02*T**2 -12.07755*T*LN(T) +7514.0*T**(-1)+17*GHSERMN#+3*GHSERSI#; 1519.00 Y -282008.6-32.58304*T+13*T*LN(T) -5.879165E-02*T**2+39.28228E+30*T**(-9)+17*GHSERMN# +3*GHSERSI#; 6000.00 N REF:31_pov15 ! $ $########################################################################### $ THERMODYNAMIC DATA: MN9SI2 $########################################################################### $ PHASE MN9SI2 % 2 33 7 > >> 1 ! CONSTITUENT MN9SI2 : MN : SI : ! PARAMETER G(MN9SI2,MN:SI;0) 273.00 -578208.4+381.294*T-56.86988*T*LN(T) -50.0355E-3*T**2+1.4586E+06*T**(-1)+33*GHSERMN#+7*GHSERSI#; 1519.00 Y -6.39992E+05+153.3464*T-9.915*T*LN(T) -0.1*T**2+76.25384E+30*T**(-9)+33*GHSERMN#+7*GHSERSI#; 6000.00 N REF:31_pov15 ! $ $########################################################################### $ THERMODYNAMIC DATA: A_MNTI $########################################################################### $ PHASE A_MNTI % 2 1 1 > >> 1 ! CONSTITUENT A_MNTI : MN : TI : ! PARAMETER G(A_MNTI,MN:TI;0) 273.00 -11478-4*T+GHSERMN#+GHSERTI#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: B_MNTI $########################################################################### $ PHASE B_MNTI % 2 0.515 0.485 > >> 1 ! CONSTITUENT B_MNTI : MN : TI : ! PARAMETER G(B_MNTI,MN:TI;0) 273.00 -5540-2.29*T+0.515*GHSERMN# +0.485*GHSERTI#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: MN3TI $########################################################################### $ PHASE MN3TI % 2 3 1 > >> 1 ! CONSTITUENT MN3TI : MN : TI : ! PARAMETER G(MN3TI,MN:TI;0) 273.00 -18552-9.12*T+3*GHSERMN# +GHSERTI#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: MN4TI $########################################################################### $ PHASE MN4TI % 2 0.815 0.185 > >> 1 ! CONSTITUENT MN4TI : MN : TI : ! PARAMETER G(MN4TI,MN:TI;0) 273.00 -2445-2.9*T+0.815*GHSERMN# +0.185*GHSERTI#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: MN2ZR $########################################################################### $ PHASE MN2ZR % 2 2 1 > >> 1 ! CONSTITUENT MN2ZR : MN,ZR : MN,ZR : ! PARAMETER G(MN2ZR,MN:MN;0) 273.00 -21345.840+390.17700*T-70.374600*T*LN(T) -0.22043040E-01*T**2+209481.30*T**(-1); 1519.00 Y -83200.230+936.79440*T-144.0*T*LN(T)+0.49705410E+31*T**(-9); 2000.00 N REF:31 ! PARAMETER G(MN2ZR,ZR:MN;0) 273.00 -8770.8146+381.35710*T-71.781800*T*LN(T) -0.16103500E-01*T**2+139769.10*T**(-1); 1519.00 Y -29388.945+563.56289*T-96.323600*T*LN(T) -0.87558200E-02*T**2+69942.000*T**(-1)+0.16568470E+31*T**(-9); 2000.00 N REF:31 ! PARAMETER G(MN2ZR,MN:ZR;0) 273.00 -79282.375+386.94271*T-71.078200*T*LN(T) -0.19073270E-01*T**2+174625.20*T**(-1); 1900.00 Y -119446.65+750.75589*T-120.16180*T*LN(T)-0.43779100E-02*T**2 +34971.000*T**(-1)+0.33136940E+31*T**(-9); 2000.00 N REF:31 ! PARAMETER G(MN2ZR,ZR:ZR;0) 273.00 -8482.7850+376.94715*T-72.485400*T*LN(T) -0.13133730E-01*T**2+104913.00*T**(-1); 2128.00 Y -63257.763+788.17255*T-126.43200*T*LN(T) -0.40286850E+32*T**(-9); 6000.00 N REF:31 ! PARAMETER L(MN2ZR,MN,ZR:MN;0) 273.00 +18442.560+14.090471*T; 6000.00 N REF:31 ! PARAMETER L(MN2ZR,MN:MN,ZR;0) 273.00 +1066.4675+10.504933*T; 6000.00 N REF:31 ! PARAMETER L(MN2ZR,ZR:MN,ZR;0) 273.00 +18442.560+14.090471*T; 6000.00 N REF:31 ! PARAMETER L(MN2ZR,MN,ZR:ZR;0) 273.00 +1066.4675+10.504933*T; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: Q_ALCUMG $########################################################################### $ PHASE Q_ALCUMG % 3 7 3 6 > Ternary Al-Cu-Mg compound of Q-Phase, not observed as precipitate. >> 1 ! CONSTITUENT Q_ALCUMG : AL : CU : MG : ! PARAMETER G(Q_ALCUMG,AL:CU:MG;0) 273.00 -221500+18.46*T +7*GHSERAL#+3*GHSERCU#+6*GHSERMG#; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: SIGMA $########################################################################### $ PHASE SIGMA % 3 8 4 18 > >> 1 ! CONSTITUENT SIGMA : FE%,MN,NI:CR,TI:CR,FE,MN,NI,SI : ! PARAMETER G(SIGMA,FE:CR:CR;0) 273.00 +8*GFEFCC#+22*GHSERCR# +92300-95.96*T; 6000.00 N REF:20 ! PARAMETER G(SIGMA,FE:CR:FE;0) 273.00 +117300-95.96*T+8*GFEFCC# +4*GHSERCR#+18*GHSERFE#; 6000.00 N REF:20 ! PARAMETER G(SIGMA,FE:CR:NI;0) 273.00 +8*GFEFCC#+4*GHSERCR# +18*GHSERNI#; 6000.00 N REF:5 ! PARAMETER G(SIGMA,FE:CR:SI;0) 273.00 +8*GFEFCC#+4*GHSERCR# +18*GSIBCC#-1100000+275*T; 6000.00 N REF:15 ! PARAMETER G(SIGMA,MN:CR:CR;0) 273.00 +65859.5+8*GMNFCC# +22*GHSERCR#; 6000.00 N REF:20 ! PARAMETER G(SIGMA,MN:CR:FE;0) 273.00 +8*GMNFCC#+4*GHSERCR#+18*GHSERFE# -95576-45.1955*T; 6000.00 N REF:20 ! PARAMETER G(SIGMA,MN:CR:MN;0) 273.00 -172946+69.0245*T+8*GMNFCC# +4*GHSERCR#+18*GMNBCC#; 6000.00 N REF:20 ! PARAMETER G(SIGMA,NI:CR:CR;0) 273.00 +8*GHSERNI#+22*GHSERCR# +180000-170*T; 6000.00 N REF:5 ! PARAMETER G(SIGMA,NI:CR:FE;0) 273.00 +8*GHSERNI#+4*GHSERCR# +18*GHSERFE#; 6000.00 N REF:5 ! PARAMETER G(SIGMA,NI:CR:NI;0) 273.00 +8*GHSERNI#+4*GHSERCR# +18*GNIBCC#+175400; 6000.00 N REF:5 ! PARAMETER L(SIGMA,FE:CR:CR,MN;0) 273.00 -1095771+862.0312*T; 6000.00 N REF:20 ! PARAMETER L(SIGMA,FE:CR:CR,SI;0) 273.00 -2115000+155*T; 6000.00 N REF:15 ! PARAMETER L(SIGMA,FE:CR:FE,SI;0) 273.00 -2015000+155*T; 6000.00 N REF:15 ! PARAMETER L(SIGMA,MN:CR:CR,MN;0) 273.00 -1095771+862.0312*T; 6000.00 N REF:20 ! $ $########################################################################### $ THERMODYNAMIC DATA: H_SIGMA $########################################################################### $ PHASE H_SIGMA % 3 8 4 18 > >> 1 ! CONSTITUENT H_SIGMA : MN : CR : CR,MN : ! PARAMETER G(H_SIGMA,MN:CR:CR;0) 273.00 -192369+152.4742*T+8*GMNFCC# +22*GHSERCR#; 6000.00 N REF:31 ! PARAMETER G(H_SIGMA,MN:CR:MN;0) 273.00 +18*GMNBCC#-74263-10.7082*T +8*GMNFCC#+4*GHSERCR#; 6000.00 N REF:31 ! PARAMETER L(H_SIGMA,MN:CR:CR,MN;0) 273.00 +90000; 6000.00 N REF:31 ! $ $########################################################################### $ THERMODYNAMIC DATA: A_SIZR $########################################################################### $ PHASE A_SIZR % 2 0.5 0.5 > >> 1 ! CONSTITUENT A_SIZR : AL,SI% : ZR : ! PARAMETER G(A_SIZR,AL:ZR;0) 273.00 +0.5*GHSERAL#+0.5*GHSERZR# -40000+10*T; 6000.00 N REF:83 ! PARAMETER G(A_SIZR,SI:ZR;0) 273.00 -97155+131.41745*T-22.593155*T*LN(T) -0.0021969325*T**2+2.748495E-11*T**3+74258.75*T**(-1); 6000.00 N REF:83 ! PARAMETER L(A_SIZR,AL,SI:ZR;0) 273.00 -80000+55*T; 6000.00 N REF:83 ! PARAMETER L(A_SIZR,AL,SI:ZR;1) 273.00 +13000-10*T; 6000.00 N REF:83 ! PARAMETER L(A_SIZR,AL,SI:ZR;2) 273.00 +1e-8; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: B_SIZR $########################################################################### $ PHASE B_SIZR % 2 1 1 > >> 1 ! CONSTITUENT B_SIZR : SI : ZR : ! PARAMETER G(B_SIZR,SI:ZR;0) 273.00 -181200+255.26*T-45.18631*T*LN(T) -0.004393865*T**2+5.49699E-11*T**3+148517.5*T**(-1); 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: SIZR2 $########################################################################### $ PHASE SIZR2 % 2 0.333 0.667 > >> 1 ! CONSTITUENT SIZR2 : AL,SI% : ZR : ! PARAMETER G(SIZR2,AL:ZR;0) 273.00 +0.333*GHSERAL#+0.667*GHSERZR# -30350+3*T; 6000.00 N REF:pov13 ! PARAMETER G(SIZR2,SI:ZR;0) 273.00 -95623.3+140.9767*T-24.14415*T*LN(T) -0.00182059*T**2-1.34808777E-09*T**3+102243.483*T**(-1); 6000.00 N REF:83 ! PARAMETER L(SIZR2,AL,SI:ZR;0) 273.00 -10000+5*T; 6000.00 N REF:83 ! PARAMETER L(SIZR2,AL,SI:ZR;1) 273.00 +5000; 6000.00 N REF:83 ! PARAMETER L(SIZR2,AL,SI:ZR;2) 273.00 +1e-8; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: SIZR3 $########################################################################### $ PHASE SIZR3 % 2 1 3 > >> 1 ! CONSTITUENT SIZR3 : SI : ZR : ! PARAMETER G(SIZR3,SI:ZR;0) 273.00 -319950+478.25*T-82.328*T*LN(T) -0.0263963*T**2+1.54326E-06*T**3-34700*T**(-1); 6000.00 N REF:50 ! $ $########################################################################### $ THERMODYNAMIC DATA: SI2ZR $########################################################################### $ PHASE SI2ZR % 2 0.667 0.333 > >> 2 ! CONSTITUENT SI2ZR : AL,SI% : AL,ZR% : ! PARAMETER G(SI2ZR,AL:AL;0) 273.00 +GHSERAL#+1000; 6000.00 N REF:pov14 ! PARAMETER G(SI2ZR,AL:ZR;0) 273.00 0.6667*GHSERAL#+0.333*GHSERZR# -40000+10*T; 6000.00 N REF:83 ! PARAMETER G(SI2ZR,SI:AL;0) 273.00 0.6667*GHSERSI#+0.333*GHSERAL# +10000; 6000.00 N REF:83 ! PARAMETER G(SI2ZR,SI:ZR;0) 273.00 -74020+122.706667*T-21.056223*T*LN(T) -0.00255915*T**2-6.57349E-12*T**3+46583.7*T**(-1); 6000.00 N REF:83 ! PARAMETER L(SI2ZR,SI:AL,ZR;0) 273.00 -15000+10*T; 6000.00 N REF:83 ! PARAMETER L(SI2ZR,AL,SI:ZR;0) 273.00 -50000+30*T; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: SI2ZR3 $########################################################################### $ PHASE SI2ZR3 % 2 2 3 > >> 1 ! CONSTITUENT SI2ZR3 : SI : ZR : ! PARAMETER G(SI2ZR3,SI:ZR;0) 273.00 -510000+845.5*T-140.103*T*LN(T) -0.003701*T**2+1.028333E-07*T**3+1167755*T**(-1); 6000.00 N REF:50 ! $ $########################################################################### $ THERMODYNAMIC DATA: SI3ZR5 $########################################################################### $ PHASE SI3ZR5 % 2 0.375 0.625 > >> 1 ! CONSTITUENT SI3ZR5 : AL%,SI : ZR : ! PARAMETER G(SI3ZR5,AL:ZR;0) 273.00 +0.375*GHSERAL#+0.625*GHSERZR# -31000+2*T; 6000.00 N REF:83 ! PARAMETER G(SI3ZR5,SI:ZR;0) 273.00 -90346.25+131.50125*T-23.375*T*LN(T) -0.002021925*T**2 +6.5285375E-09*T**3+47651.25*T**(-1); 6000.00 N REF:83 ! PARAMETER L(SI3ZR5,AL,SI:ZR;0) 273.00 -47000+27*T; 6000.00 N REF:83 ! PARAMETER L(SI3ZR5,AL,SI:ZR;1) 273.00 +40000-25*T; 6000.00 N REF:83 ! PARAMETER L(SI3ZR5,AL,SI:ZR;2) 273.00 +1e-8; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: SI4ZR5_A $########################################################################### $ PHASE SI4ZR5_A % 2 0.444 0.556 > >> 1 ! CONSTITUENT SI4ZR5_A : AL,SI% : ZR : ! PARAMETER G(SI4ZR5_A,AL:ZR;0) 273.00 +0.444*GHSERAL#+0.556*GHSERZR# -30000+10*T; 6000.00 N REF:83 ! PARAMETER G(SI4ZR5_A,SI:ZR;0) 273.00 -101785.55+159.7544*T-26.69511*T*LN(T) -0.00121645*T**2+7.3235366E-08*T**3+222936.11*T**(-1); 6000.00 N REF:83 ! PARAMETER L(SI4ZR5_A,AL,SI:ZR;0) 273.00 -52000+30*T; 6000.00 N REF:83 ! $ $########################################################################### $ THERMODYNAMIC DATA: SI4ZR5_B $########################################################################### $ PHASE SI4ZR5_B % 2 4 5 > >> 1 ! CONSTITUENT SI4ZR5_B : SI : ZR : ! PARAMETER G(SI4ZR5_B,SI:ZR;0) 273.00 -900000+1430.25*T-240.256*T*LN(T) -0.0109481*T**2+6.591183E-07*T**3+2006425*T**(-1); 6000.00 N REF:50 ! $ $########################################################################### $ THERMODYNAMIC DATA: ZR_O $########################################################################### $ PHASE ZR_O % 1 1 > >> 1 ! CONSTITUENT ZR_O : ZR : ! PARAMETER G(ZR_O,ZR;0) 273.00 -8878.082+144.432234*T-26.8556*T*LN(T) -2.799446E-3*T**2+38376*T**(-1); 2128.00 Y -29500.524+265.290858*T-42.144*T*LN(T) +717.445E29*T**(-9); 6000.00 N REF:31 ! $ $*************************************************************************** $ $ References $ $*************************************************************************** LIST_OF_REFERENCES A00201-0 unary A.T. Dinsdale, SGTE Data of pure elements, CALPHAD, Vol. 15, No. 4, pp 317-425, 1991. A00050-2 Al-C-Fe K.C.H. Kumar, V. Raghavan, A thermodynamic analysis of the Fe-C-Al system, Journal Alloy Phase diagr., Vol. 12, pp 275-286, 1991. A00042-3 C-Cr-Fe-Ni-V-W B.J. Lee, On the stability of Cr-Carbides, CALPHAD, Vol. 16, pp 121-149, 1992. A00040-4 Al-C-Cr-Cu-Fe-Mo-... J. Miettinen, Thermodynamic substitutional solution data for steels, Report TKK-MK-76, pp 1-24, 1999. A00003-5 Cr-Fe-Ni J. 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