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tutorials:t10 [2019/07/31 11:47] – [T10: T0-temperature in Fe-Cr-C] pwarczok | tutorials:t10 [2023/08/02 20:54] (current) – jasmin |
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//This tutorial was tested on\\ | //This tutorial was tested on\\ |
MatCalc version 6.02 rel 1.003\\ | MatCalc version 6.04 rel 1.001\\ |
license: free\\ | license: free\\ |
database: mc_fe.tdb// | database: mc_fe.tdb// |
In the **'Phase summary'** and **'Phase details'** window, only the FCC_A1 phase is denoted as active (mole fracton = 1). We can now proceed with this initial condition. For convenience, store this (current) state in a calculation state with the name **'Start austenite'** by selecting **'Global' -> 'CalcStates' -> 'Create...'**. | In the **'Phase summary'** and **'Phase details'** window, only the FCC_A1 phase is denoted as active (mole fracton = 1). We can now proceed with this initial condition. For convenience, store this (current) state in a calculation state with the name **'Start austenite'** by selecting **'Global' -> 'CalcStates' -> 'Create...'**. |
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{{:tutorials:t10:img:t10_globalmenu_2016.png| MatCalc global menu}} | {{:tutorials:t10:img:t10_global_menu_6050006.png| MatCalc global menu}} |
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{{:tutorials:t10:img:t10_create_a_new_calc_state_2016.png| MatCalc calc states }} | {{:tutorials:t10:img:t10_create_a_new_calc_state_2016.png| MatCalc calc states }} |
There is no need to create a new plot in order to display the graph for the T<sub>0</sub>-temperature dependence for varying carbon content. The T<sub>0</sub>- temperature line in the figure can be simply changed by **switching** from **'T0-chromium'** buffer to the **'T0-carbon'** buffer **in the options window**. | There is no need to create a new plot in order to display the graph for the T<sub>0</sub>-temperature dependence for varying carbon content. The T<sub>0</sub>- temperature line in the figure can be simply changed by **switching** from **'T0-chromium'** buffer to the **'T0-carbon'** buffer **in the options window**. |
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{{:tutorials:t10:img:t10_options_window_6011003.png| MatCalc options window}} | {{:tutorials:t10:img:t10_options_window_6050006.png| MatCalc options window}} |
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Afterwards, the x- and y-axes must be rescaled and in the case of the x-axis renamed. So the result looks as follows. | Afterwards, the x- and y-axes must be rescaled and in the case of the x-axis renamed. So the result looks as follows. |
Press **'OK'** twice and insert the experimental data into the plot as a new series (right-click in **'options'** window and select **'New series' -> 'table experimental data'**) and switch to **'Exp. data'** in **'connected to'** box (see also [[tutorials:T5 | Tutorial 5]]). | Press **'OK'** twice and insert the experimental data into the plot as a new series (right-click in **'options'** window and select **'New series' -> 'table experimental data'**) and switch to **'Exp. data'** in **'connected to'** box (see also [[tutorials:T5 | Tutorial 5]]). |
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{{:tutorials:t10:img:t10_connecting_table_data_2016.png| MatCalc options window}} | {{:tutorials:t10:img:t10_connecting_table_data_6050006.png| MatCalc options window}} |
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Edit the legend and the series names. The result looks as follows. | Edit the legend and the series names. The result looks as follows. |