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#Solidworks flow simulation tutorial 2015 software#
From strain, the software will then calculate stress. Based on this temperature difference, the software will calculate the model deflection that occurs using the thermal expansion coefficient material property. The input temperature option is set to specify the solver to use the temperature boundary conditions defined in the static study for the thermal stress calculation.ĭepending on the temperature specified in the temperature boundary condition, the component will either expand (if the temperature is above the reference temperature of zero strain value) or contract (if the temperature is below the reference temperature at zero strain value). The software uses this temperature boundary condition in concert with a static study property (Flow/Thermal Effects Tab: Reference temperature at zero strain). This allows a user to specify a specific temperature on different entity types. One of the load types available in a static study is temperature. Thermal stress analysis can be performed using the Linear Static and Nonlinear Static modules included in SOLIDWORKS Simulation/SOLIDWORKS Simulation Premium.
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This guide will illustrate the different ways of performing thermal stress analyses. A thermal stress analysis entails defining thermal conditions and analyzing the stresses that develop in components due to thermal expansion. Thermal stress analyses can be performed in various ways using the SOLIDWORKS Simulation and SOLIDWORKS Flow Simulation packages.