Difference between revisions of "Grid BC Shape Commands"

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These commands define shapes. All nodes contained within the shape will be assigned [[Grid-Based Boundary Conditions|boundary conditions]] for [[Setting Velocity, Temperature, and Concentration|velocity, temperature and/or concentration]] that are specified within the shape command.
The method to create grid-based boundary conditions was changed in [[NairnMPM]] (April 2017) and [[OSParticulas]] (revision 1170) to the method described [[Grid-Based Boundary Conditions||<tt><tt>GridBC</tt> and <tt>&lt;BCShape&gt;</tt> blocks]]. As a result, all boundary conditions commands listed below are deprecated. They still work, but should be replaced by new methods as described below.


== Line (2D or Axisymmetric) ==
== Line (2D or Axisymmetric) ==


The command to select a line through a 2D mesh in scripted files is:
The command to select a line through a 2D mesh in scripted files:


  MoveLine (x1),(y1),(x2),(y2),<(tolerance)>
  MoveLine (x1),(y1),(x2),(y2),<(tolerance)>
   (one or more velocity, temperature, or concentration condition)
   (one or more velocity, temperature, or concentration condition)
    ...
  EndMoveLine
  EndMoveLine


In <tt>XML</tt> files, a line is selected with:
should be replaced by (and note change in order of parameters):
 
GridBC
  Line (x1),(x2),(y1),(y2),<(tolerance)>
  (one or more velocity, temperature, or concentration condition)
EndGridBC
 
In <tt>XML</tt> files, a line selected with:


  <BCLine units='(units)' x1='(x1)' y1='(y1)' x2='(x2)' y2='(y2)' tolerance='(tolerance)'>
  <BCLine units='(units)' x1='(x1)' y1='(y1)' x2='(x2)' y2='(y2)' tolerance='(tolerance)'>
Line 17: Line 23:
  </BCLine>
  </BCLine>


where
should be replaced by:


* <tt>(x1, y1)</tt> to <tt>(x2, y2)</tt> define <tt>(x, y)</tt> coordinates for the points at the beginning and end of the line (or <tt>(R, Z)</tt> coordinates if axisymmetric). The units are [[ConsistentUnits Command#Legacy and Consistent Units|length units]] (or determined by a [[Units Attribute|units attribute]] in <tt>XML</tt> files). In <tt>XML</tt> files, the coordinates can alternatively be specified [[2D MPM Shape Commands#Relative Grid Locations|relative to the mesh edges]].
<BCShape>
* <tt>(tolerance)</tt> is an optional tolerance. The units are [[ConsistentUnits Command#Legacy and Consistent Units|length units]] (or determined by a [[Units Attribute|units attribute]] in <tt>XML</tt> files). In <tt>XML</tt> files, you can optionally use the format <tt>'*0.5'</tt> to set the tolerance to any factor times the minimum cell dimension in the current mesh.  If it is omitted, the tolerance will be set to a small number appropriate for the current background grid cell dimensions.
  <Line x1='(x1)' y1='(y1)' x2='(x2)' y2='(y2)' tolerance='(tolerance)'>
 
  (one or more velocity, temperature, or concentration condition)
This command will apply [[Setting Velocity, Temperature, and Concentration|velocity, temperature, and/or concentration boundary conditions]] to all nodes within <tt>(tolerance)</tt> of the line from <tt>(x1, y1)</tt> to <tt>(x2, y2)</tt>.
</BCShape>


== Arc (2D or Axisymmetric) ==
== Arc (2D or Axisymmetric) ==


The command to select an arc through a 2D mesh in scripted files is:
The command to select an arc through a 2D mesh in scripted files:


  MoveArc (x1),(y1),(x2),(y2),(startAng),(endAng),<(tolerance)>
  MoveArc (x1),(y1),(x2),(y2),(startAng),(endAng),<(tolerance)>
   (one or more velocity, temperature, or concentration condition)
   (one or more velocity, temperature, or concentration condition)
    ...
  EndMoveLine
  EndMoveLine


In <tt>XML</tt> files, a line is selected with:
should be replaced by (and note change in order of parameters):
 
GridBC
  Arc (x1),(x2),(y1),(y2),(startAng),(endAng),<(tolerance)>
  (one or more velocity, temperature, or concentration condition)
EndGridBC
 
In <tt>XML</tt> files, an arc selected with:


  <BCArc units='(units)' x1='(x1)' y1='(y1)' x2='(x2)' y2='(y2)'
  <BCArc units='(units)' x1='(x1)' y1='(y1)' x2='(x2)' y2='(y2)'
Line 41: Line 53:
  </BCLine>
  </BCLine>


where
should be replaced by


* <tt>(x1, y1)</tt> to <tt>(x2, y2)</tt> define <tt>(x, y)</tt> coordinates for the corners of a rectangular area enclosing the arc (or <tt>(R, Z)</tt> coordinates if axisymmetric). The units are [[ConsistentUnits Command#Legacy and Consistent Units|length units]] (or determined by a [[Units Attribute|units attribute]] in <tt>XML</tt> files). In <tt>XML</tt> files, the coordinates can alternatively be specified [[#Relative Grid Locations|relative to the mesh edges]].
<BCShape>
* <tt>(startAng)</tt> and <tt>(endAng)</tt> give the start and end angle (in degrees) to specify the arc.
    <Arc x1='(x1)' y1='(y1)' x2='(x2)' y2='(y2)'
* <tt>(tolerance)</tt> is an optional tolerance. The units are [[ConsistentUnits Command#Legacy and Consistent Units|length units]] (or determined by a [[Units Attribute|units attribute]] in <tt>XML</tt> files). In <tt>XML</tt> files, you can optionally use the format <tt>'*0.5'</tt> to set the tolerance to any factor times the minimum cell dimension in the current mesh.  If it is omitted, the tolerance will be set to a small number appropriate for the current background grid cell dimensions.
            start='(startAng)' end='(endAng)' tolerance='(tolerance)'>
 
  (one or more velocity, temperature, or concentration condition)
This command will apply [[Setting Velocity, Temperature, and Concentration|velocity, temperature, and/or concentration boundary conditions]] to all nodes within <tt>(tolerance)</tt> of the arc. The arc is traced in a counter-clockwise direction from <tt>(startAng)</tt> to <tt>(endAng)</tt> with angle = 0 corresponding to the position along the positive x axis.
</BCShape>


== Rectangle (2D or Axisymmetric) ==
== Rectangle (2D or Axisymmetric) ==

Revision as of 10:43, 8 April 2017

The method to create grid-based boundary conditions was changed in NairnMPM (April 2017) and OSParticulas (revision 1170) to the method described |GridBC and <BCShape> blocks. As a result, all boundary conditions commands listed below are deprecated. They still work, but should be replaced by new methods as described below.

Line (2D or Axisymmetric)

The command to select a line through a 2D mesh in scripted files: 

MoveLine (x1),(y1),(x2),(y2),<(tolerance)>
  (one or more velocity, temperature, or concentration condition)
EndMoveLine

should be replaced by (and note change in order of parameters): 

GridBC
  Line (x1),(x2),(y1),(y2),<(tolerance)>
  (one or more velocity, temperature, or concentration condition)
EndGridBC

In XML files, a line selected with: 

<BCLine units='(units)' x1='(x1)' y1='(y1)' x2='(x2)' y2='(y2)' tolerance='(tolerance)'>
  (one or more velocity, temperature, or concentration condition)
    ...
</BCLine>

should be replaced by: 

<BCShape>
  <Line x1='(x1)' y1='(y1)' x2='(x2)' y2='(y2)' tolerance='(tolerance)'>
  (one or more velocity, temperature, or concentration condition)
</BCShape>

Arc (2D or Axisymmetric)

The command to select an arc through a 2D mesh in scripted files: 

MoveArc (x1),(y1),(x2),(y2),(startAng),(endAng),<(tolerance)>
  (one or more velocity, temperature, or concentration condition)
EndMoveLine

should be replaced by (and note change in order of parameters): 

GridBC
  Arc (x1),(x2),(y1),(y2),(startAng),(endAng),<(tolerance)>
  (one or more velocity, temperature, or concentration condition)
EndGridBC

In XML files, an arc selected with: 

<BCArc units='(units)' x1='(x1)' y1='(y1)' x2='(x2)' y2='(y2)'
       start='(startAng)' end='(endAng)' tolerance='(tolerance)'>
  (one or more velocity, temperature, or concentration condition)
    ...
</BCLine>

should be replaced by 

<BCShape>
   <Arc x1='(x1)' y1='(y1)' x2='(x2)' y2='(y2)'
            start='(startAng)' end='(endAng)' tolerance='(tolerance)'>
  (one or more velocity, temperature, or concentration condition)
</BCShape>

Rectangle (2D or Axisymmetric)

The command to select a rectangle, which is only available in XML files, is 

<LdRect xmin='(xmin)' xmax='(xmax)' ymin='(ymin)' ymax='(ymax)'>
  (one or more velocity, temperature, or concentration condition)
    ...
</LdRect>
  • (xmin), (xmax), (ymin), and (xmax)define the x and y ranges for the rectangular area (or R and Z ranges if axisymmetric). The units are length units or determined by an optional units attribute . The coordinates can alternatively be specified relative to the mesh edges.

This command will apply velocity, temperature, and/or concentration boundary conditions to all nodes within the rectangle. Although this command is not available in scripted files, it be be reproduced in scripted files using a line command: 

MoveLine xmin,(ymin+ymax)/2,xmax,(ymin+ymax)/2,(ymax-ymin)/2
  (one or more velocity, temperature, or concentration condition)
    ...
EndMoveLine

Box or Cylinder (3D)

The command to select a 3D box or cylinder in scripted files is: 

MoveBox (x1),(y1),(z1),(x2),(y2),(z2),<(axis)>
  (one or more velocity, temperature, or concentration condition)
    ...
EndMoveBox

In XML files, a box or cylinder is selected with: 

<BCBox units='(units)' xmin='(x1)' xmax='(x2)' ymin='(y1)' ymax='(y2)'
                       zmin='(z1)' zmax='(z2)' axis='(axis)'>
  (one or more velocity, temperature, or concentration condition)
    ...
</BCBox>

where

  • (x1, y1, z1) and (x2, y2, z2) define (x, y, z) coordinates for opposite corners of the box. The units are length units (or determined by a units attribute in XML files). In XML files, the coordinates can alternatively be specified relative to the mesh edges.
  • (axis) is an optional parameter that will convert the shape from a box to the cylinder enclosed within the box with its axis along the specified direction (entered as x, 1, y, 2, z, or 3).

This command will apply velocity, temperature, and/or concentration boundary conditions to all nodes within the specified box or cylinder.

Relative Grid Locations

Rather than hard code positions for boundary conditions or shapes that define material points, any coordinate specified in XML files (e.g., an entry for (x1), (x2), (xmin), (xmax), etc.) can be the text 'min', 'max', 'min-3', 'min+1.2', 'max-3.8', 'max+2', etc., meaning the minimum, the maximum, or a specified number of cells relative to the minimum or maximum of the current mesh. For GIMP calculations 'min' and 'max' will be limits of useable mesh while 'min-1' and 'max+1' will be limits to the total mesh. For backward compatibility, min+, min-, max+, and max- refer to plus or minus one cell from the minimum or maximum of the current mesh.

Layers of Boundary Conditions

Grid boundary conditions are typcially placed one a layer of nodes that is outside the body defined by the material points and that layer defines the boundary. When using GIMP methods, however, a particle near the boundary will interact with that boundary layer, but may also interact with nodes beyond a single row of boundary conditions. To prevent non-physical results from the extra nodes that are physcially outside the body, it may be necessary to set up two rows (or columns) of boundary conditions. For example, to have a rigid wall, set the velocity of two rows (or columns) or nodes to be zero. An alternative solution is to fill a boundary area with rigid particles. Rigid particle automatically create the required boundary conditions on two rows (or columns) of nodes.

Sometimes even two rows of boundary conditions will lead to artifacts in particles near the edges. These artifacts can be reduced by using symmetry planes or rigid particles with the mirrored property.

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