wiki:examples:thermo-mechanical-demo
Differences
This shows you the differences between two versions of the page.
| Next revision | Previous revision | ||
|
wiki:examples:thermo-mechanical-demo [2016/05/06 11:24] bp created |
wiki:examples:thermo-mechanical-demo [2016/09/27 16:34] (current) smilauer |
||
|---|---|---|---|
| Line 1: | Line 1: | ||
| ====== Example of thermo-mechanical coupling ====== | ====== Example of thermo-mechanical coupling ====== | ||
| - | {{:wiki:images:mupif-logo.jpg?nolink&100 |}} | + | {{:wiki:images:mupif-logo.png?nolink&100 |}} |
| - | To demonstrate the platform use, consider first an example of coupled nonstationary thermo-mechanical analysis. A rectangular domain is clamped on the left edge and subjected to temperature loading according to figure below. | + | |
| - | {{:wiki:examples:scheme2.png?2nolink&500 |}} | + | |
| + | To demonstrate the platform use, consider first an example of a coupled nonstationary thermo-mechanical analysis. A rectangular domain is clamped on the left edge and subjected to temperature loading according to figure below. | ||
| + | |||
| + | {{ :wiki:examples:scheme2.png?nolink&500 |}} | ||
| Heat convection is prescribed on the top edge with ambient temperature 10°C. Left and bottom edges have prescribed temperature 0°C, the right edge has no boundary condition. Initial temperature is set to 0°C, heat conductivity is 1 W/m/K, heat capacity 1.0 J/kg/K, material density 1.0 kg/m<sup>3</sup>. The material has assigned Young's modulus as 30 GPa, Poisson's ratio 0.25 and coefficient of linear thermal expansion 12e-6 °C<sup>-1</sup>. Integration time step is constant as 1 s, 10 steps are executed in total. | Heat convection is prescribed on the top edge with ambient temperature 10°C. Left and bottom edges have prescribed temperature 0°C, the right edge has no boundary condition. Initial temperature is set to 0°C, heat conductivity is 1 W/m/K, heat capacity 1.0 J/kg/K, material density 1.0 kg/m<sup>3</sup>. The material has assigned Young's modulus as 30 GPa, Poisson's ratio 0.25 and coefficient of linear thermal expansion 12e-6 °C<sup>-1</sup>. Integration time step is constant as 1 s, 10 steps are executed in total. | ||
| Line 12: | Line 15: | ||
| Evolution of temperature field and elastic deformation are showed on the following figure. | Evolution of temperature field and elastic deformation are showed on the following figure. | ||
| - | {{ :wiki:examples:animation-example13.gif?nolink |}} | + | {{ :wiki:examples:animation-example13.gif?nolink& |}} |
| The MuPIF control script for this simulation | The MuPIF control script for this simulation | ||
wiki/examples/thermo-mechanical-demo.1462526667.txt.gz · Last modified: 2016/05/06 11:24 by bp
Page Tools
Except where otherwise noted, content on this wiki is licensed under the following license: CC Attribution-Share Alike 4.0 International
