Jeff Hiller
COMSOL Employee
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Posted:
5 years ago
20 nov. 2019, 09:18 UTC−5
Updated:
5 years ago
20 nov. 2019, 04:18 UTC−5
This thread explains how to find the mathematical definition for a varaible whose name you know.
Best,
Jeff
-------------------
Jeff Hiller
[This thread](https://www.comsol.com/forum/thread/243661/expression-for-variables) explains how to find the mathematical definition for a varaible whose name you know.
Best,
Jeff
Henrik Sönnerlind
COMSOL Employee
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Posted:
5 years ago
21 nov. 2019, 02:15 UTC−5
Hi Maria,
solid.pm is the 'pressure' as obtained by dividing the trace of the stress tensor by 3 (and reversing the sign). This variable always exists.
solid.pw is the pressure degree of freedom introduced when you select a mixed formulation (that is not only displacements as degreed of freedom).
Regards,
Henrik
-------------------
Henrik Sönnerlind
COMSOL
Hi Maria,
solid.pm is the 'pressure' as obtained by dividing the trace of the stress tensor by 3 (and reversing the sign). This variable always exists.
solid.pw is the pressure degree of freedom introduced when you select a mixed formulation (that is not only displacements as degreed of freedom).
Regards,
Henrik
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Posted:
5 years ago
21 nov. 2019, 09:10 UTC−5
Hi Maria,
solid.pm is the 'pressure' as obtained by dividing the trace of the stress tensor by 3 (and reversing the sign). This variable always exists.
solid.pw is the pressure degree of freedom introduced when you select a mixed formulation (that is not only displacements as degreed of freedom).
Regards,
Henrik
Thank you so much for your support Henrik.
My problem is that I have a breast model within which I inserted a prosthesis.
I want to analyze which is the pressure on the surface of the prosthesis which is in contact whit the biological tissue.
I think that my interesting variabile is solid.pm.
Is it correct?
Thanking you in advance,
BR
Maria
>Hi Maria,
>
>solid.pm is the 'pressure' as obtained by dividing the trace of the stress tensor by 3 (and reversing the sign). This variable always exists.
>
>solid.pw is the pressure degree of freedom introduced when you select a mixed formulation (that is not only displacements as degreed of freedom).
>
>Regards,
>Henrik
Thank you so much for your support Henrik.
My problem is that I have a breast model within which I inserted a prosthesis.
I want to analyze which is the pressure on the surface of the prosthesis which is in contact whit the biological tissue.
I think that my interesting variabile is solid.pm.
Is it correct?
Thanking you in advance,
BR
Maria
Henrik Sönnerlind
COMSOL Employee
Please login with a confirmed email address before reporting spam
Posted:
5 years ago
22 nov. 2019, 04:46 UTC−5
Hi Maria,
If I understand you right, you are looking for the pressure excerted by one object on the boundary of another. If this is the case, solid.pm is not what you are looking for. You want the normal component of the traction; that is
Here n is the normal to the boundary and is the full stress tensor.
Regards,
Henrik
-------------------
Henrik Sönnerlind
COMSOL
Hi Maria,
If I understand you right, you are looking for the pressure excerted by one object on the boundary of another. If this is the case, solid.pm is not what you are looking for. You want the normal component of the traction; that is
\sigma_n = \mathbf n^T \boldsymbol \sigma \mathbf n
Here **n** is the normal to the boundary and \boldsymbol \sigma is the full stress tensor.
Regards,
Henrik
Please login with a confirmed email address before reporting spam
Posted:
5 years ago
22 nov. 2019, 05:23 UTC−5
Hi Maria,
If I understand you right, you are looking for the pressure excerted by one object on the boundary of another. If this is the case, solid.pm is not what you are looking for. You want the normal component of the traction; that is
\sigma_n = \mathbf n^T \boldsymbol \sigma \mathbf n
Here n is the normal to the boundary and \boldsymbol \sigma is the full stress tensor.
Regards,
Henrik
Hi Henrik,
Thank you so much for your precious support.
So, in order to obtain this normal component of the traction, should I insert that expression in Comsol? Where?
I'm a beginner with this software, so I'm not sure to make correct assumptions.
Thank you!
>Hi Maria,
>
>If I understand you right, you are looking for the pressure excerted by one object on the boundary of another. If this is the case, solid.pm is not what you are looking for. You want the normal component of the traction; that is
>
> \sigma_n = \mathbf n^T \boldsymbol \sigma \mathbf n
>
>Here **n** is the normal to the boundary and \boldsymbol \sigma is the full stress tensor.
>
>Regards,
>Henrik
Hi Henrik,
Thank you so much for your precious support.
So, in order to obtain this normal component of the traction, should I insert that expression in Comsol? Where?
I'm a beginner with this software, so I'm not sure to make correct assumptions.
Thank you!