Henrik Sönnerlind
COMSOL Employee
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Posted:
2 years ago
2023年2月20日 GMT-5 11:29
A quick look reveals some problems in your model (the list may not be exhaustive):
- In order for the mesh in the air domain not to collapse, you need to set a small offset in the Contact node, for example 0.2[um]. How small you can make that value depends on the quality of the mesh. This effect cannot be ascertained by using the shift in the penalty stiffness curve.
- You will need to create a user-defined mesh in order to get a fine enough mesh around the collapsing air gap without making the whole model excessively large. Probably a mapped mesh should be used in that region.
- Avoid using the contact settings for impact analysis in a stationary study.
- Use an auxiliary sweep in the Stationary node, not an outer parametric sweep. A parametric sweep is used analyze a set of different parameters, while the auxiliary sweep is used to trace a nonlinear solution.
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Henrik Sönnerlind
COMSOL
A quick look reveals some problems in your model (the list may not be exhaustive):
* In order for the mesh in the air domain not to collapse, you need to set a small offset in the *Contact* node, for example 0.2\[um\]. How small you can make that value depends on the quality of the mesh. This effect cannot be ascertained by using the shift in the penalty stiffness curve.
* You will need to create a user-defined mesh in order to get a fine enough mesh around the collapsing air gap without making the whole model excessively large. Probably a mapped mesh should be used in that region.
* Avoid using the contact settings for impact analysis in a stationary study.
* Use an auxiliary sweep in the *Stationary* node, not an outer parametric sweep. A parametric sweep is used analyze a set of different parameters, while the auxiliary sweep is used to trace a nonlinear solution.