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Command reference help topics

Plane Property dialog box (Multiphysics)

Physical Property Table
Name Defines the name of the physical property table.
Label Defines the unique numeric identifier for the physical property table.
Properties
Material Assigns an isotropic or orthotropic material to the associated elements.Select a material from the list of materials assigned to the model, or click Choose material to define a new material.
Thickness
Thickness Sets the thickness for the plane stress elements.
Non-Structural Mass
Non-Structural Mass per Area Sets the non-structural mass per area for the elements.
Non-Structural Mass Material Assigns another isotropic or orthotropic material for the non-structural mass.Select a material from the list of materials assigned to the model, or click Choose material to define a new material.
Advanced
Formulation Option Specifies the element formulation to use.Standard Formulation uses the standard element formulation.Mean Dilatational uses a mean dilatational formulation for nearly incompressible materials.
Thermo-Optical Properties
Radiation Activates radiation calculations for the elements in the mesh collector. Select None if you do not want to compute radiation.You can activate radiation calculation for the following faces of the shell: top face, bottom face, or both top and bottom faces.
Top****Bottom Define the emissivity for modeling radiation.Black BodyDefines an emissivity of 1.Thermo-Optical PropertiesDefines a constant or temperature-varying emissivity.Thermo-Optical Properties-AdvancedDefines the infrared and solar thermo-optical properties for modeling gray radiation or wavelength-dependent thermo-optical properties for modeling non-gray radiation.Select Black Body or a modeling object from the list, or click Open Manager to define a new modeling object.Click Edit to modify the specified modeling object.Click More Options to search and filter regions. The following options are available.FindLets you search for an object by entering the full name of the object. For example, to find a region named ABC_region, type ABC_region in the search box and press Enter or click Find . If the object is found, it will be selected automatically.Filter by NameLets you filter the list by the names of the objects. This filter supports wildcards. The default wildcard is the asterisk (), and it displays all entries in the list. For example, to filter the list to display every object with a name starting with the letter “a," enter a as the filter string.
Top to Bottom Couplings
Appears when Radiation is set to Top and Bottom.
Create Top and Bottom as Two-Layer Shells Treats the top and bottom sides of the element as separate, parallel elements. Each parallel element is half as thick as the defined total element thickness.If you do not select this option, the thermal solver models conduction in only two dimensions. For example, when the through-plane temperature differential is insignificant, each element has a single temperature value with no distinction between top and bottom sides.
Account for Appears when Create Top and Bottom as Two-Layer Shells is selected.Specifies the type of heat transfer that takes place between the top and bottom sides of the element.ConductionSpecifies conductive heat transfer between the top and bottom layers using the value that you set in the Heat Transfer Coefficient box. No heat transfer is calculated based on the assigned thermal conductivity or specified thickness value in the associated physical property table.RadiationSpecifies radiative heat transfer between the top and bottom layers using the value that you set in the Effective Emissivity box. No heat transfer is calculated based on the assigned thermal conductivity or specified thickness value in the associated physical property table.You can calculate the effective emissivity value by multiplying the known emissivity of the layer by the known gray body view factor between the layers. The gray body view factor is the fraction of total radiative energy that leaves one element and that is absorbed by another.Conduction and RadiationSpecifies that both conductive and radiative heat transfer be accounted for using the specified Heat Transfer Coefficient and Effective Emissivity values.NoneSpecifies that no heat transfer exists between the top and bottom sides.
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Plane Property dialog box (Multiphysics), Simcenter 3D 2021.1 Series

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Source: https://docs.sw.siemens.com/en-US/doc/289054037/PL20200601120302950.advanced/xid1187260 · retrieved 2026-07-17