Ivar KJELBERG
COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted:
1 decade ago
2009年10月7日 GMT+2 14:58
Hi
it depends what you are trying to do, I'm not sure I get it correct, but if you do not use the thermal expansion "alpha", with a little care you can use it for a non linear "swelling" by defining a function and set your alpha (normal material expansion) to this function. This is the way the material detabase define non-linear material.
There are quite some text in the help/documentation about interpolated data functions
Does it help ? Hope so
Good luck
Ivar
Hi it depends what you are trying to do, I'm not sure I get it correct, but if you do not use the thermal expansion "alpha", with a little care you can use it for a non linear "swelling" by defining a function and set your alpha (normal material expansion) to this function. This is the way the material detabase define non-linear material. There are quite some text in the help/documentation about interpolated data functions Does it help ? Hope so Good luck Ivar
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Posted:
1 decade ago
2009年10月7日 GMT+2 15:38
Hello,
I did consider including this swelling in my expansion coefficient, but I would have to include logical statements, which would change the equation dependent on some other variable I have in my model.
e.g.
alpha = (if stage=1 then a + b*T + c*T^2, if stage=2 then d+ e*T + f*T^2)
this is to ensure the volume does not decrease with temperature, the same way it increased, giving a hysterisis graph of material swelling.
Hello, I did consider including this swelling in my expansion coefficient, but I would have to include logical statements, which would change the equation dependent on some other variable I have in my model. e.g. alpha = (if stage=1 then a + b*T + c*T^2, if stage=2 then d+ e*T + f*T^2) this is to ensure the volume does not decrease with temperature, the same way it increased, giving a hysterisis graph of material swelling.