Note: This discussion is about an older version of the COMSOL Multiphysics® software. The information provided may be out of date.
Discussion Closed This discussion was created more than 6 months ago and has been closed. To start a new discussion with a link back to this one, click here.
large deformation with the volume constant
Posted 28 lug 2011, 21:32 GMT-4 Structural Mechanics Version 4.1 2 Replies
Please login with a confirmed email address before reporting spam
Hello,
I 'm trying to simulate the deformed cell with solid mechanics module. The volume of the cell should be kept constant during the cell deformation. However, the volume is always changed after calculated.
I have tried some methods, for example, I use nearly incompressible material and geometric nonlinearity in the linear elastic material model. Many warnings come to say 'inverted mesh' and I can not get the final results. I can not find a good way to keep the volume of the cell constant. So, could you give me some suggestions?
Regards
Lingyao
I 'm trying to simulate the deformed cell with solid mechanics module. The volume of the cell should be kept constant during the cell deformation. However, the volume is always changed after calculated.
I have tried some methods, for example, I use nearly incompressible material and geometric nonlinearity in the linear elastic material model. Many warnings come to say 'inverted mesh' and I can not get the final results. I can not find a good way to keep the volume of the cell constant. So, could you give me some suggestions?
Regards
Lingyao
2 Replies Last Post 3 ago 2011, 09:32 GMT-4
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
You should switch to a hyperelastic formulation in order to get a constant volume. The key is in the way different formulations calculate volumetric strain. The linear elastic material with geometric nonlinearity uses the Green-Lagrange strain. A zero volumetric (mean) Green-Lagrange strain does not mean zero volume change. Hyperelastic materials use the determinant of the deformation gradient as a measure of volumetric strain so zero strain means zero volume change.
Nagi Elabbasi
Veryst Engineering
Nagi Elabbasi
Veryst Engineering
Please login with a confirmed email address before reporting spam
Posted:
1 decade ago
You should switch to a hyperelastic formulation in order to get a constant volume. The key is in the way different formulations calculate volumetric strain. The linear elastic material with geometric nonlinearity uses the Green-Lagrange strain. A zero volumetric (mean) Green-Lagrange strain does not mean zero volume change. Hyperelastic materials use the determinant of the deformation gradient as a measure of volumetric strain so zero strain means zero volume change.
Nagi Elabbasi
Veryst Engineering
Thanks very much!
Best regards
Lingyao