Two-Way Radio User Manual
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RADIATE
17.1
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RADIATE: Specify radiation conditions in heat transfer analyses.
This option is used to apply radiation boundary conditions between a nonconcave surface and a nonreflecting
environment in fully coupled thermal-stress analysis. In ABAQUS/Standard it is also used for heat transfer
and coupled thermal-electrical analyses.
It must be used in conjunction with the
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PHYSICAL CONSTANTS option, which is used to define the
Stefan-Boltzm ann constant.
Products: ABAQUS/Standard ABAQUS/Explicit
Type: History data
Level: Step
Reference:
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“Thermal loads,” Section 27.4.4 of the ABAQUS Analysis User ’s Manual
Optional parameters:
AMPLITUDE
Set this param eter equal to the name of the
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AMPLITUDE option that gives the variation of the
ambient temperature with time.
If this parameter is omitted in an ABAQUS/Standard analysis, the reference magnitude is
applied immediately at the beginning of the step or linearl y over the step, depending on the value
assigned to the AMPLITUDE parameter on the
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STEP option (see “Procedures: overview,”
Section 6.1.1 of the ABAQ US Analysis User’s Manual). If this param eter is om itted in an
ABAQUS/Explicit analysis, the refere nce magnitude given on the da ta lines is applied throughout
the step.
OP
Set OP=MOD (default) for existing
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RADIATE definitions to remain, with this option modifying
existing radiation conditions or defining additional radiati on conditions.
Set OP=NEW if all existing
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RADIATE definitions applied to the model should be removed.
REGION TYPE
This parameter applies only to ABAQUS/Explicit analyses.
This parameter is relevant only for ra diation conditions applied to the boundary of an adaptiv e
mesh domain. If a radiation condition is a pplied to a surface in the inte rior of an adaptive mesh
domain, the nodes on the surface will move with the material in all directions (they will be
nonadaptive). ABAQUS/Explicit will create a boundary region automatically on the surface
subjected to the defined radiation condition.
17.1–1
ABAQUS Version 6.1 Module:
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