Henrik Sönnerlind
COMSOL Employee
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Posted:
4 years ago
2020年8月26日 GMT-4 02:19
Updated:
4 years ago
2020年8月26日 GMT-4 02:20
Hi,
The stresses in the Linear Elastic Material node are computed using the elastic strains, that is after removing the plastic strains from the total strains. These (2nd P-K stresses) are thus independent of whatever stress measure is used in the Plasticity node, long as the Plasticity node delivers the correct plastic strains.
For large strain plasticity, the stress-strain curve is assumed to be true (Cauchy) stress vs. true strain. For small strain plasticity, all stress measures are equal.
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Henrik Sönnerlind
COMSOL
Hi,
The stresses in the *Linear Elastic Material* node are computed using the elastic strains, that is after removing the plastic strains from the total strains. These (2nd P-K stresses) are thus independent of whatever stress measure is used in the *Plasticity* node, long as the *Plasticity* node delivers the correct plastic strains.
For large strain plasticity, the stress-strain curve is assumed to be true (Cauchy) stress vs. true strain. For small strain plasticity, all stress measures are equal.
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Posted:
4 years ago
2020年8月26日 GMT-4 02:52
Updated:
4 years ago
2020年8月26日 GMT-4 02:54
Hi,
The stresses in the Linear Elastic Material node are computed using the elastic strains, that is after removing the plastic strains from the total strains. These (2nd P-K stresses) are thus independent of whatever stress measure is used in the Plasticity node, long as the Plasticity node delivers the correct plastic strains.
For large strain plasticity, the stress-strain curve is assumed to be true (Cauchy) stress vs. true strain. For small strain plasticity, all stress measures are equal.
Thanks for your reply,
I believe that from perspective view of continuum mechanics, since mechanical behavior of the material is simulated by one constituve equation (as a function of stress and elastic,plastic,external, or thermal strains), "theses (2nd P-K stresses)" should not be "independent of whatever stress measure is used in the Plasticity node".
This will be more obvious when we add an external strain tensor (for adding considerably high amounts of strains) besides elastic and plastic ones. In this case, for external strain tensor and elastic one 2nd P-K stress is used while Cauchy stress is used for plasticity calculations!
Best Regards,
>Hi,
>
>The stresses in the Linear Elastic Material node are computed using the elastic strains, that is after removing the plastic strains from the total strains. These (2nd P-K stresses) are thus independent of whatever stress measure is used in the Plasticity node, long as the Plasticity node delivers the correct plastic strains.
>
>For large strain plasticity, the stress-strain curve is assumed to be true (Cauchy) stress vs. true strain. For small strain plasticity, all stress measures are equal.
Thanks for your reply,
I believe that from perspective view of continuum mechanics, since mechanical behavior of the material is simulated by one constituve equation (as a function of stress and elastic,plastic,external, or thermal strains), "theses (2nd P-K stresses)" should not be "independent of whatever stress measure is used in the Plasticity node".
This will be more obvious when we add an external strain tensor (for adding considerably high amounts of strains) besides elastic and plastic ones. In this case, for external strain tensor and elastic one 2nd P-K stress is used while Cauchy stress is used for plasticity calculations!
Best Regards,