Difference between revisions of "Particle-Based Boundary Conditions"
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Particle-based boundary conditions are used to apply conditions directly to particles for loads, tractions, heat fluxes, and concentration fluxes. Particle-based boundary conditions are typically applied to particles on the boundary of the object. Besides particle conditions, simulations can set [[Grid-Based Boundary Conditions]]. | Particle-based boundary conditions are used to apply conditions directly to particles for loads, tractions, heat fluxes, and concentration fluxes. Particle-based boundary conditions are typically applied to particles on the boundary of the object. Besides particle conditions, simulations can set [[Grid-Based Boundary Conditions]]. | ||
== Particle-Based Boundary Condition | ==Particle-Based Boundary Condition Commands == | ||
In scripted files, all particle-based boundary conditions are created by a series of <tt>ParticleBC</tt> command blocks that select particles: | In scripted files, all particle-based boundary conditions are created by a series of <tt>ParticleBC</tt> command blocks that select particles: | ||
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</GridBCs> | </GridBCs> | ||
The <tt><BCShape></tt> blocks set boundary conditions as explained [[#Particle-Based Boundary Condition Commands|above]]. The <tt>< | The <tt><BCShape></tt> blocks set boundary conditions as explained [[#Particle-Based Boundary Condition Commands|above]]. The <tt><LoadBCs></tt> block lets you [[xplicit Particle Boundary Conditions|explicitly list each grid point]]. The explicit method is limited to load conditions, and is usually generated with other software. You can use both [[Particle BC Shape Commands|shape commands]] and a [[Explicit Particle Boundary Conditions|<tt><LoadBCs></tt> section]] in the same input file. | ||
Revision as of 11:24, 8 April 2017
Introduction
Particle-based boundary conditions are used to apply conditions directly to particles for loads, tractions, heat fluxes, and concentration fluxes. Particle-based boundary conditions are typically applied to particles on the boundary of the object. Besides particle conditions, simulations can set Grid-Based Boundary Conditions.
Particle-Based Boundary Condition Commands
In scripted files, all particle-based boundary conditions are created by a series of ParticleBC command blocks that select particles:
ParticleBC
(one 2D or 3D shape command, which can be nested)
(one or more load, traction, heat flux, or concentration flux condition)
...
EndParticleBC
In XML files, particle-based boundary conditions are created with a <BCShape> block
<BCShape>
(one 2D or 3D shape command, which can be nested)
(one or more load, traction, heat flux, or concentration flux condition)
...
</BCShape>
which must be within the main <ParticleBC> block.
The particles that will get boundary conditions are selected by defining one 2D shape (for 2D simulations) or one 3D shape (for 3D simulations). The shape can be a nested shape.
All particles within the one shape will be set to all provided load, traction, heat flux, and/or concentration flux conditions.
Deprecated Commands
Prior to the particle-based boundary condition commands in the previous section, the boundary conditions used to be set with boundary condition shape commands. The deprecated commands are:
- LoadLine and <BCLine>
- LoadArc and <BCArc>
- LoadRect and <LdRect>
- LoadBox and <BCBox>
See documentation for conversion of old commands to the new method.
Explicit Grid-Based Boundary Condition in XML Files
An option in XML files is to explicitly set boundary conditions on particles without using shape functions. The format is
<GridBCs>
(one or more <BCShape> blocks)
...
<LoadBCs>
(one or more explicit boundary conditions)
</LoadBCs>
</GridBCs>
The <BCShape> blocks set boundary conditions as explained above. The <LoadBCs> block lets you explicitly list each grid point. The explicit method is limited to load conditions, and is usually generated with other software. You can use both shape commands and a <LoadBCs> section in the same input file.