(4.8-3), triphasic/multiphasic materials, Eq.
Mass flow rate across a named surface,, Section (4.1.2.7-1)įluid pressure in biphasic, Eq. The total fluid load support across a named surface Evaluated by integrating the fluid pressure over the contact surface.Īlternative calculation of the net fluid forceĪverage heat supply density of a fluid elementĪverage kinetic energy densify of a fluid element Net fluid force across biphasic (sliding2), biphasic-solute (sliding3) and multiphasic (sliding-multiphasic) contact interface. (4.8-4), and triphasic/multiphasic materials, Eq. Volumetric fluid flow rate across a named surface (biphasic and multiphasic analyses)įluid flux in biphasic, Eq. (4.9-2)įluid acceleration (material time derivative of fluid velocity, Section (4.1.2.7-1)įluid density in fluid and fluid-FSI materials, Eq. (4.9-7)Įlectric potential in triphasic/multiphasic materials, Section 4.9↓įixed charge density in current configuration, Eq. (4.8-3), and triphasic/multiphasic materials, Eq. (4.9-7)Įffective solute concentration for biphasic-solute materials, Eq. (4.8-3) and triphasic/multiphasic materials, Eq. The elasticity of the elastic material in a biphasic/triphasic/multiphasic material.įluid pressure for biphasic, biphasic-solute, triphasic, and multiphasic materials.įluid pressure for biphasic, biphasic-solute, triphasic, and multiphasic materials of shell domains.Įffective solute concentration for biphasic-solute, triphasic, and multiphasic materials of shell domains.Įffective solute concentration for biphasic-solute, triphasic, and multiphasic materials.įluid pressure for biphasic materials, Eq. The element’s total strain energy at the current configuration.ĭeviatoric strain energy density, Eq. The element’s total linear momentum at the current configuration
The element’s total kinetic energy at the current configuration. The element’s center of mass at the current configuration. The element’s total angular momentum at the current configuration. Currently works only with sliding-tension-compression.Ĭontact traction vectors, evaluated at contact surface facesĮlectric current density, Eq. Values between 0 and 1 imply that a fraction of that face is in stick mode. Stick status in stick-slip frictional contact (1=stick, 0=slip). Evaluated by integrating the contact traction over the contact surface.Ĭontact gap distance, evaluated at contact surface facesĬontact pressure, evaluated at contact surface faces Net contact force across contact interface. Evaluated by integrating the surface area at integration points where the contact pressure is not zero. Net contact area across contact interface.
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