Boundary conditions > Simulation objects > Simcenter 3D Thermal/Flow, Electronic Systems Cooling, and Space Systems Thermal simulation objects > Thermal Coupling — Advanced
1 Way options
| Name | |
|---|---|
| Name | Lets you specify a name for the simulation object.Description opens an editor that lets you type a description for the constraint. |
| Destination Folder | |
| Simulation Object Container | Specifies the folder in the Simulation Navigator in which the boundary condition will be stored. The list includes the root container and existing folders that you created using the New Folder command. Examples of a root container include Load Container, Constraint Container, and Simulation Object Container. |
| Folder Manager | Displays a hierarchical listing of existing folders. To create a new folder, right-click any level of the hierarchy and choose New Folder. |
| Primary Region/Secondary Region | |
| Group Reference | Lets you apply the primary or secondary coupling region to a group.For more information, see Group Reference options. |
| Select Object | Lets you select both the primary and secondary sets of elements, or the geometry containing them.Element Selection Filtering lets you limit your element selection to the FE entity you select from the Filter Type list:0D Elements, 1D Elements, or 2D Elements lets you select only elements of that order.Element Edges lets you select 1D elements, the edges of 2D, or 3D elements.Element Faces lets you select 2D elements or the faces of 3D elements.Caution: You must select Element from the main selection Type Filter list to use the Element Selection Filtering options.Excluded lets you remove individual entities from within your selected object. |
| Stacked Smart Selector Methods | Opens the Smart Selector Methods dialog box where you can specify a progression of smart selection filters.For more information, see Smart Selector Methods dialog box. |
| Magnitude | |
| Type | Specifies how the software calculates the one way coupling.Total ConductanceDefines the total conductance between the primary and the secondary elements. Specify its value in the Conductance box.Heat Transfer CoefficientDefines conductances between the primary and the secondary elements by the equation G = h × A. Specify the value of the heat transfer coefficient, h, in the Coefficient box.For more information, see Additional magnitude options. |
| Additional Parameters | |
| Coupling Resolution | Controls the accuracy of the coupling. The software subdivides primary elements according to the Coupling Resolution before it determines conductances.With the One to One resolution, the solver calculates a single conductance from each primary element to the nearest secondary element.With the Coarse through Finest resolutions, the software subdivides each primary element is divided into a progressively larger number of sub-elements.Although it may seem that the finer subdivision level would produce more accurate results, this is not always the case.For more information, see Specifying a Coupling Resolution. |
| Only Connect Overlapping Elements | Appears when Type is set to 1 Way or User Function.Connects only primary sub-elements to secondary elements that overlap.For more information, see Using the Only Connect Overlapping Elements option. |
| Overlap Projection Direction | Available when Only Connect Overlapping Elements is selected.Specifies whether the normal of the primary or secondary elements is used to calculate the area of overlap.For more information, see Using the Overlap Projection Direction option. |
| Temperature Dependence Uses | Specifies which temperature is used to evaluate the magnitude when temperature-varying function is used. You can define a temperature dependency in table fields, formula fields, 4D fields, and table of fields.Average TemperatureUses the average temperature of primary and secondary regions to evaluate the magnitude.Primary TemperatureUses the temperature of the primary region to evaluate the magnitude.For more information, see Temperature dependency for thermal and electrical couplings. |
How do I
Create a 1 Way Thermal Coupling
Create a user function thermal coupling
Learn more
User function thermal coupling
Inputs to expressions
Specifying a Coupling Resolution
Using the Only Connect Overlapping Elements option
Using the Overlap Projection Direction option
Look up more details
User Function options
Auto-generated expressions
Thermal Coupling — Advanced dialog box
Quick links
Simcenter 3D Thermal/Flow, Electronic Systems Cooling, and Space Systems Thermal boundary conditions
Thermal/Flow, Electronic Systems Cooling, and Space Systems Thermal
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1 Way options, Simcenter 3D 2021.1 Series
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Source: https://docs.sw.siemens.com/en-US/doc/289054037/PL20200601120302950.advanced/xid1927429 · retrieved 2026-07-17