Difference between revisions of "Bistable Isotropic Material"

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== Material Properties ==
== Material Properties ==
The material properties


{| class="wikitable"
{| class="wikitable"
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| G0 || Shear modulus for initial state || MPa || none
| G0 || Shear modulus for initial state || MPa || none
|-
|-
| a0 || Shear modulus for initial state || MPa || none
| alpha0 || Thermal expansion coefficient for initial state || ppm/K || 40
|-
| kCond0 || Thermal conductivity for initial state || W/(m-K) || 0
|-
| beta0 || Solvent expansion coefficien for initial statet || 1/(wt fraction) || 0
|-
| D0 || Solvent diffusion constant for initial state || mm<sup>2</sup>/sec || 0
|-
| Kd || Bulk modulus for transformed state || MPa || none
|-
| Gd || Shear modulus for transformed state || MPa || none
|-
| alphad || Thermal expansion coefficient for transformed state || ppm/K || 40
|-
| kCondd || Thermal conductivity for transformed state || W/(m-K) || 0
|-
| betad || Solvent expansion coefficien for transformed statet || 1/(wt fraction) || 0
|-
| Dd || Solvent diffusion constant for transformed state || mm<sup>2</sup>/sec || 0
|-
| ([[Common Material Properties|other]]) || Properties common to all materials || varies || varies
|}
|}


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|-
|-
| beta || Solvent expansion coefficient || 1/(wt fraction) || 0
| beta || Solvent expansion coefficient || 1/(wt fraction) || 0
|-
| D || Solvent diffusion constant || mm<sup>2</sup>/sec || 0
|-
| kCond || Thermal conductivity || W/(m-K) || 0
|-
| ([[Common Material Properties|other]]) || Properties common to all materials || varies || varies
|}
|}



Revision as of 09:19, 28 December 2013

Constitutive Law

This MPM material (or FEA material) is two small-strains materials (each with same constitutive law as an isotropic material). The two material states are linked by transition rules and the transition between the two states can be reversible or irreversible.

The transition between the two states is determined either by a "dilation" rule, a "distortion" rule, or a "Von Mises" stress rule (as determined by the transition property). With a dilation rule, the transition occurs when the volumetric strain

      [math]\displaystyle{ {\Delta V\over V} = \varepsilon_{xx}+\varepsilon_{yy}+\varepsilon_{zz} }[/math]

reaches the entered critical value. WIth a distortion rule, the transition occurs when the second strain invariant:

      [math]\displaystyle{ I_2 = \sqrt{{1\over 2}\sum_{i,j}\varepsilon_{ij}'\varepsilon_{ij}'} }[/math]

where [math]\displaystyle{ \varepsilon_{ij}' }[/math] is deviatoric strain tensor, reaches a critical value. By a Von Mises stress rule, the transition occurs when the Von Mises stress

      [math]\displaystyle{ \sigma_{VM} = \sqrt{\sum_{i,j}\sigma_{ij}'\sigma_{ij}'} }[/math]

where [math]\displaystyle{ \sigma_{ij}' }[/math] is is deviatoric stress, reaches a critical value. When using a dilation rule, the new stress-strain relation can include a changed offset in volumetric strain corresponding to stress-free conditions at a non-zero dilation relative to the initial state (see DeltaVOffset property). This change normally leads to an instantaneous change in stress upon transition. When using a distortion or Von Mises stress rule, the offset is ignored and the change is only a change in slope of mechanical properties.

Material Properties

The material properties

Property Description Units Default
K0 Bulk modulus for initial state MPa none
G0 Shear modulus for initial state MPa none
alpha0 Thermal expansion coefficient for initial state ppm/K 40
kCond0 Thermal conductivity for initial state W/(m-K) 0
beta0 Solvent expansion coefficien for initial statet 1/(wt fraction) 0
D0 Solvent diffusion constant for initial state mm2/sec 0
Kd Bulk modulus for transformed state MPa none
Gd Shear modulus for transformed state MPa none
alphad Thermal expansion coefficient for transformed state ppm/K 40
kCondd Thermal conductivity for transformed state W/(m-K) 0
betad Solvent expansion coefficien for transformed statet 1/(wt fraction) 0
Dd Solvent diffusion constant for transformed state mm2/sec 0
(other) Properties common to all materials varies varies
Property Description Units Default
beta Solvent expansion coefficient 1/(wt fraction) 0

History Variables

None

Examples