How to find equivalent thermal strain?
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I am calculating thermal-elastic-viscoplastic strains in a solidifying material.Â
Thermal strain was calculated using the isotropic secant coefficient of thermal expansion.Â
I extracted the strain values using equivalent elastic strain, equivalent plastic strain, equivalent total strain and thermal strain.
I observed that,Â
Equivalent Total Strain = Equivalent Elastic Strain + Equivalent Plastic Strain.
Thermal strain was not included in the Equivalent total strain because the results of thermal strain were based on orientation (X, Y and Z
axis) whereas elastic and plastic are in equivalent form.Â
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In the manual, it is mentioned that an equivalent thermal strain can be calculated using Von-Mises equation.
Is there any way to calculate the Equivalent thermal strain? Why only thermal strain was like that and the rest of all are in equivalent form?
If I understand the concept incorrectly, please correct me.Â
Thank you.
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If I have a transient thermal analysis to compute the temperature distribution in the body, I can import the results at the end time into a Static Structural model which can compute the Equivalent Elastic Strain from the CTE and the temperature distribution. I can make the Static Structural model be a two-step analysis and in step 2, I can apply a pressure load and create some additional elastic strain.
  
You can insert a User Defined Result to compute the total equivalent strain which includes thermal and elastic.
  
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