maheshh
Mechanical
- Aug 27, 2003
- 61
What are the probable reasons for a heat transfer problem (using only SOLID70 elements) not converging?
I have created a very detailed structure of semiconductor die (resolution: few micron level details included), thermal interface material and lid (dimension: @37.5 mm square). I have heat flux BC on the die and convection on top of lid surface (trying to keep it simple).
Solution:
Steady State Analysis
The solver starts off with "Nonlinear Solution"
I am using Sparse direct solver
Newton-Raphson option: FULL
ANTYPE,STATIC ! Steady-state analysis type
EQSLVE,SPARSE
NROPT,FULL ! Program-chosen Newton-Raphson
TUNIF,300 ! Uniform starting temperature
AUTOTS,ON ! Automatic time stepping
NSUBST,2 ! Number of substeps
KBC,0 ! Ramped loading (default)
SOLVE
FINISH
I have tried upto 50 substeps. But the solution does not converge. I am using the default convergence criterion.
I keep on getting a message:
"There are 'n' small equation solver pivot terms. May be a transitional effect caused by the N-R logic."
I know this warning can be ignored. So not worried about that.
But why does the solution not converge?
Could this be because there is a huge variation in terms of element size as I go from die details to lid tessellation? I thought this would not be a problem because I am solving for only TEMP dof.
OR
Is it because of the huge difference between thermal conductivities of different materials?
Any hints?
Regards
Mahesh Hardikar
I have created a very detailed structure of semiconductor die (resolution: few micron level details included), thermal interface material and lid (dimension: @37.5 mm square). I have heat flux BC on the die and convection on top of lid surface (trying to keep it simple).
Solution:
Steady State Analysis
The solver starts off with "Nonlinear Solution"
I am using Sparse direct solver
Newton-Raphson option: FULL
ANTYPE,STATIC ! Steady-state analysis type
EQSLVE,SPARSE
NROPT,FULL ! Program-chosen Newton-Raphson
TUNIF,300 ! Uniform starting temperature
AUTOTS,ON ! Automatic time stepping
NSUBST,2 ! Number of substeps
KBC,0 ! Ramped loading (default)
SOLVE
FINISH
I have tried upto 50 substeps. But the solution does not converge. I am using the default convergence criterion.
I keep on getting a message:
"There are 'n' small equation solver pivot terms. May be a transitional effect caused by the N-R logic."
I know this warning can be ignored. So not worried about that.
But why does the solution not converge?
Could this be because there is a huge variation in terms of element size as I go from die details to lid tessellation? I thought this would not be a problem because I am solving for only TEMP dof.
OR
Is it because of the huge difference between thermal conductivities of different materials?
Any hints?
Regards
Mahesh Hardikar