Users:General FEM Analysis/BCs Reference
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A load case object collects all boundary conditions, Dirichlet and Neumann constraints, which define the current problem. A load case block is linked directly into an analysis object. Each Neumann block is separately weighted by a factor FAC. | A load case object collects all boundary conditions, Dirichlet and Neumann constraints, which define the current problem. A load case block is linked directly into an analysis object. Each Neumann block is separately weighted by a factor FAC. | ||
− | The example below shows a load case including a nodal load block, one element load and one set of Dirichlet conditions. | + | The example below shows a load case including a nodal load block, one element load, and one set of Dirichlet conditions. Activated Dirichlet sets can also (partly) be deactivated. |
<pre> | <pre> | ||
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TYPE = LD-ELEM 1 FAC=1.0 | TYPE = LD-ELEM 1 FAC=1.0 | ||
TYPE = BC-DIRICHLET 1 | TYPE = BC-DIRICHLET 1 | ||
+ | TYPE = DEACT-BC-DIRICHLET 2 !only for special applications needed | ||
</pre> | </pre> | ||
− | + | Note that DesignBoundaries for supports do not have to be added to the load case. | |
− | + | ||
== Dirichlet Boundary Conditions == | == Dirichlet Boundary Conditions == | ||
− | Here you can find the [[Users:General FEM Analysis/BCs Reference/Dirichlet|Reference Guide for Dirichlet BCs]] | + | Here you can find the [[Users:General FEM Analysis/BCs Reference/Dirichlet|Reference Guide for Dirichlet BCs]] based node sets. |
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+ | Here you can find the [[Users:Geometry Generation/Design_Supports|Reference Guide for Dirichlet BCs for design elements]]. | ||
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== Neumann Boundary Conditions == | == Neumann Boundary Conditions == | ||
− | Here you can find the [[Users:General FEM Analysis/BCs Reference/Neumann|Reference Guide for Neumann BCs]] | + | Here you can find the [[Users:General FEM Analysis/BCs Reference/Neumann|Reference Guide for Neumann BCs]] based node sets. |
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+ | Here you can find the [[Users:Geometry Generation/Design_Loads|Reference Guide for Neumann BCs for design elements]]. |
Latest revision as of 14:00, 14 December 2017
Contents |
Load case
A load case object collects all boundary conditions, Dirichlet and Neumann constraints, which define the current problem. A load case block is linked directly into an analysis object. Each Neumann block is separately weighted by a factor FAC.
The example below shows a load case including a nodal load block, one element load, and one set of Dirichlet conditions. Activated Dirichlet sets can also (partly) be deactivated.
LD-COM 1 TYPE = LD-NODE 1 FAC=1.0 TYPE = LD-ELEM 1 FAC=1.0 TYPE = BC-DIRICHLET 1 TYPE = DEACT-BC-DIRICHLET 2 !only for special applications needed
Note that DesignBoundaries for supports do not have to be added to the load case.
Dirichlet Boundary Conditions
Here you can find the Reference Guide for Dirichlet BCs based node sets.
Here you can find the Reference Guide for Dirichlet BCs for design elements.
Neumann Boundary Conditions
Here you can find the Reference Guide for Neumann BCs based node sets.
Here you can find the Reference Guide for Neumann BCs for design elements.
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