doc:user:elements:volumes:iso_hypo_materials
Differences
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| Both sides previous revisionPrevious revisionNext revision | Previous revision | ||
| doc:user:elements:volumes:iso_hypo_materials [2026/06/12 14:36] – [TmElastHypoMaterial] papeleux | doc:user:elements:volumes:iso_hypo_materials [2026/06/12 14:43] (current) – [TmContinuousDamageEvpIsoHHypoMaterial] papeleux | ||
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| Line 202: | Line 202: | ||
| :!: Thermomechanical calculation method : | :!: Thermomechanical calculation method : | ||
| * When the thermal expansion changes, an average value is computed over the time step is estimated to model this thermal expansion properly. | * When the thermal expansion changes, an average value is computed over the time step is estimated to model this thermal expansion properly. | ||
| - | * If the heat capacity changes, | + | * Heat Capacity Type allows to manage varying Heat Capacity : |
| + | * POINT_WISE : compute | ||
| + | * ENTHALPY_CONSISTENT (default) : an average value is computed to estimate properly the energy balance. An equivalent heat capacity can be used to take into account the latent heat (= heat capacity + latent heat). Needed for fast variation of HeatCapacity (ex: solid phase changes). | ||
| ---- | ---- | ||
| Line 283: | Line 285: | ||
| :!: Thermomechanical calculation method : | :!: Thermomechanical calculation method : | ||
| * When the thermal expansion changes, an average value is computed over the time step is estimated to model this thermal expansion properly. | * When the thermal expansion changes, an average value is computed over the time step is estimated to model this thermal expansion properly. | ||
| - | * If the heat capacity changes, | + | * Heat Capacity Type allows to manage varying Heat Capacity : |
| + | * POINT_WISE : compute | ||
| + | * ENTHALPY_CONSISTENT (default) : an average value is computed to estimate properly the energy balance. An equivalent heat capacity can be used to take into account the latent heat (= heat capacity + latent heat). Needed for fast variation of HeatCapacity (ex: solid phase changes). | ||
| ---- | ---- | ||
| Line 470: | Line 474: | ||
| :!: Thermomechanical calculation method : | :!: Thermomechanical calculation method : | ||
| * When the thermal expansion changes, an average value is computed over the time step is estimated to model this thermal expansion properly. | * When the thermal expansion changes, an average value is computed over the time step is estimated to model this thermal expansion properly. | ||
| - | * If the heat capacity changes, | + | * Heat Capacity Type allows to manage varying Heat Capacity : |
| + | * POINT_WISE : compute | ||
| + | * ENTHALPY_CONSISTENT (default) : an average value is computed to estimate properly the energy balance. An equivalent heat capacity can be used to take into account the latent heat (= heat capacity + latent heat). Needed for fast variation of HeatCapacity (ex: solid phase changes). | ||
| ---- | ---- | ||
doc/user/elements/volumes/iso_hypo_materials.1781267813.txt.gz · Last modified: by papeleux