This shows you the differences between two versions of the page.
| Both sides previous revisionPrevious revisionNext revision | Previous revision | ||
| howtosimulate:precipitation:primary_prec [2016/09/09 17:29] – [Size distributions defined from parent phase] pwarczok | howtosimulate:precipitation:primary_prec [2017/03/03 11:06] (current) – [Estimation of amount and size of primary precipitates] pwarczok | ||
|---|---|---|---|
| Line 15: | Line 15: | ||
| ===== Related documents ===== | ===== Related documents ===== | ||
| - | - [[techpapers: | ||
| - [[techpapers: | - [[techpapers: | ||
| - [[examples: | - [[examples: | ||
| Line 34: | Line 33: | ||
| Primary precipitates are formed in the liquid state. The //MatCalc// precipitation models are not designed for liquid phase precipitation since its growth models have been developed for diffusion in the solid state. Convection and particle collisions in the liquid state are not accounted for. However, in order to take primary precipitation into account in the simulations, | Primary precipitates are formed in the liquid state. The //MatCalc// precipitation models are not designed for liquid phase precipitation since its growth models have been developed for diffusion in the solid state. Convection and particle collisions in the liquid state are not accounted for. However, in order to take primary precipitation into account in the simulations, | ||
| - | The most straightforward means to determine (or estimate) the amount of primary precipitation is the application of the Scheil-Gulliver model. It is described in some detail in the technical paper [[techpapers: | + | The most straightforward means to determine (or estimate) the amount of primary precipitation is the application of the Scheil-Gulliver model. It is described in some detail in the comprehensive example [[examples: |
| ====== Introduce size distribution of primary precipitates ====== | ====== Introduce size distribution of primary precipitates ====== | ||