https://www.matcalc.at/wiki/ 2026-04-23T12:46:17+00:00 https://www.matcalc.at/wiki/ https://www.matcalc.at/wiki/lib/tpl/default/images/favicon.ico text/html 2019-06-28T17:04:34+00:00 Anonymous (anonymous@undisclosed.example.com) https://www.matcalc.at/wiki/doku.php?id=examples:equilib:e1&rev=1561734274&do=diff Example E1: Stable and meta-stable phase diagram of Fe-C-Mn Compatibility MatCalc version: 5.44.0013 Database: mc_sample_fe.tdb Author: Georg Stechauner Created: 2011-09-29 Revisions: Objectives In this example, the basic features of ortho- text/html 2019-06-28T17:08:24+00:00 Anonymous (anonymous@undisclosed.example.com) https://www.matcalc.at/wiki/doku.php?id=examples:equilib:e2&rev=1561734504&do=diff Example E2: Stable and meta-stable phases in Al-Cu Compatibility MatCalc version: 5.44.1002 Database: mc_sample_al2.tdb (Version 1.007) Author: Georg Stechauner Created: 2012-01-09 Revisions: Updated to new Database Note: Make sure that you use version 1.007 of the sample database! text/html 2019-05-14T15:13:31+00:00 Anonymous (anonymous@undisclosed.example.com) https://www.matcalc.at/wiki/doku.php?id=examples:equilib:e3&rev=1557839611&do=diff Example E3: Analysis of the miscibility gap in Fe-C-N-Nb-V Compatibility MatCalc version: 5.44.0015 Database: mc_fe.tdb, mc_x_FeCNbVN.tdb Author: Georg Stechauner Created: 2011-09-27 Revisions: Objectives This example was designed to create and manipulate composition sets and to analyze complex miscibility gaps. For demonstration of the related text/html 2019-05-14T15:14:14+00:00 Anonymous (anonymous@undisclosed.example.com) https://www.matcalc.at/wiki/doku.php?id=examples:equilib:e6&rev=1557839654&do=diff Example E6: Composition-dependent driving forces for carbide precipitation in Fe-C-Cr Compatibility MatCalc version: 5.44.1002 Database: mc_sample_fe.tdb Author: Georg Stechauner Created: 2012-01-04 Revisions: Objectives This example investigates the influence of Cr on the driving force for nucleation of cementite. The procedure of evaluating driving forces is demonstrated by setting the phase fraction to zero and fixing the phase fraction in the phase status dialog. $u_{Cr}+u_{Fe… text/html 2019-06-28T15:04:22+00:00 Anonymous (anonymous@undisclosed.example.com) https://www.matcalc.at/wiki/doku.php?id=examples:equilib:e10&rev=1561727062&do=diff Example E10: 'Most-likely' nucleus composition for bcc-Cu precipitation in bcc-Fe Compatibility MatCalc version: 5.52.0038 Database: mc_sample_fe.tdb Author: P. Warczok Created: 2013-06-25 Revisions: Objectives This example investigates the most likely nucleus composition of the homogeneous precipitate phase. The analysis is based on the classical nucleation theory predicition of the critical nucleation Gibbs energy which is given as:\[ P(x_{Cu}) \approx exp \LARGE(\normalsize -… text/html 2012-11-20T14:06:56+00:00 Anonymous (anonymous@undisclosed.example.com) https://www.matcalc.at/wiki/doku.php?id=examples:equilib:e20&rev=1353416816&do=diff Thermodynamic equilibrium analysis for continuous casting simulation of micro-alloyed Fe-Al-C-N-Nb-Ti steel * E20 - Thermodynamic equilibrium analysis for continuous casting simulation of micro-alloyed Fe-Al-C-N-Nb-Ti steel. This analysis is a recommended step before carrying out precipitation kinetics simulations in inhomogeneous, segregated primary solidification microstructure. text/html 2017-03-03T11:20:16+00:00 Anonymous (anonymous@undisclosed.example.com) https://www.matcalc.at/wiki/doku.php?id=examples:equilib:e30&rev=1488536416&do=diff Section 'Example E30' is still under construction!! Example E30: Trapping in Fe-C Compatibility MatCalc version: 6.00.0100 Database: mc_fe.tdb Author: Y. Shan Created: 2016-09-07 Revisions: Objectives Related documents * Equilibrium trapping * text/html 2019-05-14T15:16:23+00:00 Anonymous (anonymous@undisclosed.example.com) https://www.matcalc.at/wiki/doku.php?id=examples:equilib:e31&rev=1557839783&do=diff Example E31: Segregation kinetics of P and S at grain boundaries Compatibility MatCalc version: 6.0.0137 Database: mc_fe.tdb Author: Yao Shan Created: 2016-09-29 Revisions: Objectives In this example, the basic features of the trapping kinetics is demonstrated. The site competition between sulphur and phosphor at grain boundaries will be highlighted in this simple example.