Thermal Expansion (for Constraints)

Add the subnode to a constraint ( or ) to prescribe a deformation of the constrained boundary caused by changes in the surrounding temperature. This makes it possible to reduce the stresses caused by such boundary conditions.

Select an to specify how the thermal strain is entered. The default is , in which case the thermal strain is given by

here, the secant coefficient of thermal expansion α can be temperature dependent.

When is , the thermal strain is given by

where αt is the tangential coefficient of thermal expansion.

When is , enter the thermal strain dL as function of temperature explicitly.

In all three cases, the default is to take values . When entering data as , select , , or to enter one or more components for a general coefficient of the thermal expansion tensor or the thermal strain tensor. When a nonisotropic input is used, the axis orientations are given by the coordinate system selection in the parent node.

The subnode is only available with some COMSOL products (see https://www.comsol.com/products/specifications/).

Shell Properties


	This section is only present in the in the Layered Shell interface, where it is described in the documentation for the Thermal Expansion (for Constraints) node.

Thermal Expansion Properties

Specify the thermal properties that define the thermal strain. This is a description of the thermal expansion of surroundings idealized by the constraints.

Select to take the thermal expansion data from the domain being constrained. This should only be used when:

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The temperature and the thermal expansion coefficient do not have a spatial variation. For this reason, it is only possible to inherit from a node under a material model, not from the multiphysics coupling.

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The virtual surrounding material has the same thermal expansion as the domain itself.

The check box is not available when the constraint in the parent node is applied to domains. In that case, the data is implicitly inherited from the domain.

When is not selected, enter:

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A value or expression for the Tref that is the temperature at which there are no thermal displacements at the constraints.

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A value or expression for T, specifying the temperature distribution of the surrounding material. Any temperature variation must be an explicit function of the material frame coordinates. It is not possible to use a computed temperature distribution.

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Select the — , , or to specify how the thermal strain is entered. The default values are used. This requires that a material has been assigned to the boundaries, edges, or points where the constraint is active. When a nonisotropic coefficient of thermal expansion is used, the axis orientations are given by the coordinate system selected in the section.

Enter the coordinates of the , the point where the displacement is zero. The choice of reference point only affects the rigid body motion. If there are several different constraints with a subnode, the same reference point should usually be selected in all of them.

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Constraints and Thermal Expansion in the Structural Mechanics Modeling chapter.

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Thermal Expansion of Constraints in the Structural Mechanics Theory chapter.

Location in User Interface

Context Menus

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Physics tab with or node selected in the model tree: