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ρ (SI unit: kg/m3) is the alloy’s density.
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Cp (SI unit: J/(kg·K)) is the alloy’s heat capacity at constant pressure.
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k (SI unit: W/(m·K)) is the alloy’s thermal conductivity (a scalar or a tensor if the thermal conductivity is anisotropic).
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u (SI unit: m/s) is the velocity field defined by the Translational Motion subnode when parts of the model are moving in the material frame.
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Q (SI unit: W/m3) is the heat source (or sink). Add one or more heat sources as separate physics features. See Heat Source node and Thermoelastic Damping subnode for example.
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This model input does not override the Reference temperature Tref set in the Physical Model section of the physics interface, which is used to evaluate the reference enthalpy, and a reference density for incompressible nonisothermal flows.
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Volume average (default), which calculates the effective conductivity of the alloy as the weighted arithmetic mean of austenite and martensite conductivities:
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Reciprocal average, which calculates the effective conductivity of the alloy as the weighted harmonic mean of austenite and martensite conductivities:
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Power law, which calculates the effective conductivity of the alloy as the weighted geometric mean of austenite and martensite conductivities:
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