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saved solutions with transient multi-physics problem

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I am looking for guidance on how to properly save and use solutions for a multi-step transient problem.

Problem description:
I have a thin conductor patterned onto a substrate. Current is applied through the conductor and resistive heating of the conductor occurs. (Physics - Conductive media DC) Heat is conducted through the substrate giving rise to a time dependent spatial temperature distribution of the object. (Physics - Heat transfer by conduction) Time dependent temperature distribution should cause time-dependent stress and strain due to thermal expansion of the object. (Physics - Solid - stress, strain).

I am in the end interested in the strain/stress as a function of time. It seems like I should be able to solve each of these problems separately in sequence rather than trying to solve them all simultaneously (the computer chokes when I try to solve it simultaneously). When I try to do this, the solver does not use the solution at each time step.

Does somebody have an example problem that demonstrates what I want to do or some other insight that might make things easier?

Thanks,
Jeramy

2 Replies Last Post 2 giu 2015, 00:23 GMT-4
Ivar KJELBERG COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)

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Posted: 1 decade ago 31 mar 2010, 02:10 GMT-4
Hi

cannt you use the segregated solver (V3.5a) and and sequence the two, if not you could use matlab to reopen each saved time results and run your stationary thereon, you have the operator at() and with() to access time dependent results or eigenmode results when you need to mix calculations (this is for postprocessing though)

Good luck
Ivar
Hi cannt you use the segregated solver (V3.5a) and and sequence the two, if not you could use matlab to reopen each saved time results and run your stationary thereon, you have the operator at() and with() to access time dependent results or eigenmode results when you need to mix calculations (this is for postprocessing though) Good luck Ivar

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Posted: 9 years ago 2 giu 2015, 00:23 GMT-4

I am looking for guidance on how to properly save and use solutions for a multi-step transient problem.

Problem description:
I have a thin conductor patterned onto a substrate. Current is applied through the conductor and resistive heating of the conductor occurs. (Physics - Conductive media DC) Heat is conducted through the substrate giving rise to a time dependent spatial temperature distribution of the object. (Physics - Heat transfer by conduction) Time dependent temperature distribution should cause time-dependent stress and strain due to thermal expansion of the object. (Physics - Solid - stress, strain).

I am in the end interested in the strain/stress as a function of time. It seems like I should be able to solve each of these problems separately in sequence rather than trying to solve them all simultaneously (the computer chokes when I try to solve it simultaneously). When I try to do this, the solver does not use the solution at each time step.

Does somebody have an example problem that demonstrates what I want to do or some other insight that might make things easier?

Thanks,
Jeramy



Hi

Did you get the solution for your problem?? I am exactly in the same position, where i need to compute time dependent stress/ strain based on the temperature profile at each time step saved in previous study step.

Please help...........

Thanks
Basky
[QUOTE] I am looking for guidance on how to properly save and use solutions for a multi-step transient problem. Problem description: I have a thin conductor patterned onto a substrate. Current is applied through the conductor and resistive heating of the conductor occurs. (Physics - Conductive media DC) Heat is conducted through the substrate giving rise to a time dependent spatial temperature distribution of the object. (Physics - Heat transfer by conduction) Time dependent temperature distribution should cause time-dependent stress and strain due to thermal expansion of the object. (Physics - Solid - stress, strain). I am in the end interested in the strain/stress as a function of time. It seems like I should be able to solve each of these problems separately in sequence rather than trying to solve them all simultaneously (the computer chokes when I try to solve it simultaneously). When I try to do this, the solver does not use the solution at each time step. Does somebody have an example problem that demonstrates what I want to do or some other insight that might make things easier? Thanks, Jeramy [/QUOTE] Hi Did you get the solution for your problem?? I am exactly in the same position, where i need to compute time dependent stress/ strain based on the temperature profile at each time step saved in previous study step. Please help........... Thanks Basky

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