Both sides previous revisionPrevious revisionNext revision | Previous revisionLast revisionBoth sides next revision |
tutorials:t11 [2019/07/31 20:50] – [T11: Simulation of solidification of 0.7C 3Mn steel] pwarczok | tutorials:t11 [2023/08/02 22:08] – [Step 3: Add a Scheil calculation with back-diffusion of carbon] pwarczok |
---|
| |
//This tutorial was tested on\\ | //This tutorial was tested on\\ |
MatCalc version 6.02 rel 1.003\\ | MatCalc version 6.03 rel 1.000\\ |
license: free\\ | license: free\\ |
database: mc_fe.tdb// | database: mc_fe.tdb// |
Enter the system composition in weight percent as listed in the subsequent figure selecting **'Global Composition ...'** or pressing the **F7** key. | Enter the system composition in weight percent as listed in the subsequent figure selecting **'Global Composition ...'** or pressing the **F7** key. |
| |
{{:tutorials:t11:img:t11_composition_2016.png| MatCalc Composition}} | {{:tutorials:t11:img:t11_composition_6050006.png| MatCalc Composition}} |
| |
Set initial values with **'Calc'->'Set start values'** or **Ctrl+Shift+F**. Calculate equilibrium at 1600°C. The results in the **'Phase summary'** window are | Set initial values with **'Calc'->'Set start values'** or **Ctrl+Shift+F**. Calculate equilibrium at 1600°C. The results in the **'Phase summary'** window are |
We are going to display the Scheil curve with and without back-diffusion in one window. Therefore, first, lock the previous Scheil calculation, which is still displayed in the diagram window and name it **'Scheil'**. | We are going to display the Scheil curve with and without back-diffusion in one window. Therefore, first, lock the previous Scheil calculation, which is still displayed in the diagram window and name it **'Scheil'**. |
| |
{{:tutorials:t11:img:t11_options_window_2016.png| MatCalc options}} | {{:tutorials:t11:img:t11_options_window_6050006.png| MatCalc options}} |
| |
Then, we make sure that the just created buffer (**'Scheil with BD of C'**) is selected as current buffer for the plot in the options window and drag and drop the **'F$LIQUID'** variable into the plot (note that alternatively you can use the 'Lock and duplicate series' option accessible via the right mouse button or the 'View' menu). Rename the new series to **'Scheil with BD of C'**. The new diagram looks like the following figure. | Then, we make sure that the just created buffer (**'Scheil with BD of C'**) is selected as current buffer for the plot in the options window and drag and drop the **'F$LIQUID'** variable into the plot (note that alternatively you can use the 'Lock and duplicate series' option accessible via the right mouse button or the 'View' menu). Rename the new series to **'Scheil with BD of C'**. The new diagram looks like the following figure. |