mpacts.contact.models.collision. constantpressure

In order to be able to use this module import it like this:

import mpacts.contact.models.collision.constantpressure
#or assign it to a shorter name
import mpacts.contact.models.collision.constantpressure as con

ConstantPressureDampedInt

Description: User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included. Geometry combinations available:

PC2 | PC1 - Rigid_RoundedTriangle Deformable_RoundedTriangle
Sphere YES YES
Rigid_Triangle YES YES
Rigid_RoundedTriangle YES YES
Rigid_Quad YES YES
Rigid_CylinderTop YES YES
Rigid_CylinderBottom YES YES
Rigid_Cylinder YES YES
Deformable_Triangle   YES
Deformable_RoundedTriangle   YES

ConstantPressureDampedInt (Deformable_RoundedTriangle Deformable_RoundedTriangle)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • abort_if_different (default value = 0) — If ‘True’, inverts the regular function of ‘AbortIfSameParent’, and makes the contact model early abort if the particles’ parents are different. Please do not change this ‘Property’ if you are not sure what you are doing.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRoundedTriangle_2_DataDeformable_NGon_1_Data  <3 >
  ↓
Deformable_NGon_2_Data  <3 >
  ↓
RoundedTriangle_RoundedTriangleConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesDistributeForcesAndMomentsToTriangle_2_NodesAssembleForces_DeformableTriangle_1AssembleForces_DeformableTriangle_2AbortIfSameParentFeedback

ConstantPressureDampedInt (Deformable_RoundedTriangle Deformable_Triangle)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • layer_width (default value = 0) — flat layer width

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Deformable_NGon_2_Data  <3 >
  ↓
RoundedTriangle_NGonConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesDistributeForcesAndMomentsToTriangle_2_NodesAssembleForces_DeformableTriangle_1AssembleForces_DeformableTriangle_2Feedback

ConstantPressureDampedInt (Deformable_RoundedTriangle Rigid_Cylinder)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_CylinderConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureDampedInt (Deformable_RoundedTriangle Rigid_CylinderBottom)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_Disk  <Bottom_Selector >
  ↓
ConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureDampedInt (Deformable_RoundedTriangle Rigid_CylinderTop)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_Disk  <Top_Selector >
  ↓
ConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureDampedInt (Deformable_RoundedTriangle Rigid_Quad)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • layer_width (default value = 0) — flat layer width

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <4 >
  ↓
RoundedTriangle_NGonConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureDampedInt (Deformable_RoundedTriangle Rigid_RoundedTriangle)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRoundedTriangle_2_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <3 >
  ↓
RoundedTriangle_RoundedTriangleConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesDistributeForcesAndMomentsToTriangle_2_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureDampedInt (Deformable_RoundedTriangle Rigid_Triangle)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • layer_width (default value = 0) — flat layer width

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <3 >
  ↓
RoundedTriangle_NGonConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureDampedInt (Deformable_RoundedTriangle Sphere)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Sphere0_2_DataRoundedTriangle_SphereConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2Feedback

ConstantPressureDampedInt (Rigid_RoundedTriangle Rigid_Cylinder)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_CylinderConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureDampedInt (Rigid_RoundedTriangle Rigid_CylinderBottom)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_Disk  <Bottom_Selector >
  ↓
ConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureDampedInt (Rigid_RoundedTriangle Rigid_CylinderTop)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_Disk  <Top_Selector >
  ↓
ConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureDampedInt (Rigid_RoundedTriangle Rigid_Quad)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • layer_width (default value = 0) — flat layer width

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <4 >
  ↓
RoundedTriangle_NGonConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureDampedInt (Rigid_RoundedTriangle Rigid_RoundedTriangle)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • abort_if_different (default value = 0) — If ‘True’, inverts the regular function of ‘AbortIfSameParent’, and makes the contact model early abort if the particles’ parents are different. Please do not change this ‘Property’ if you are not sure what you are doing.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRoundedTriangle_2_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <3 >
  ↓
RoundedTriangle_RoundedTriangleConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesDistributeForcesAndMomentsToTriangle_2_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2AbortIfSameParentFeedback

ConstantPressureDampedInt (Rigid_RoundedTriangle Rigid_Triangle)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • layer_width (default value = 0) — flat layer width

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <3 >
  ↓
RoundedTriangle_NGonConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureDampedInt (Rigid_RoundedTriangle Sphere)

User-specified constant pressure is integrated over the rounded triangle contact area. Additionally, a linear damper is included.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • c — Linear damping constant (weighted with area)
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Sphere_2_DataRoundedTriangle_SphereConstantPressure_Int  <16 >
  ↓
N_LinearDamper_IntDistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureFprimInt

Description: User-specified constant pressure is integrated over the rounded triangle contact area. Geometry combinations available:

PC2 | PC1 - Rigid_RoundedTriangle Deformable_RoundedTriangle
Sphere YES YES
Rigid_Triangle YES YES
Rigid_RoundedTriangle YES YES
Rigid_Quad YES YES
Rigid_CylinderTop YES YES
Rigid_CylinderBottom YES YES
Rigid_Cylinder YES YES
Deformable_Triangle   YES
Deformable_RoundedTriangle   YES

ConstantPressureFprimInt (Deformable_RoundedTriangle Deformable_RoundedTriangle)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done
    • abort_if_different (default value = 0) — If ‘True’, inverts the regular function of ‘AbortIfSameParent’, and makes the contact model early abort if the particles’ parents are different. Please do not change this ‘Property’ if you are not sure what you are doing.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRoundedTriangle_2_DataDeformable_NGon_1_Data  <3 >
  ↓
Deformable_NGon_2_Data  <3 >
  ↓
RoundedTriangle_RoundedTriangleConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesDistributeForcesAndMomentsToTriangle_2_NodesAssembleForces_DeformableTriangle_1AssembleForces_DeformableTriangle_2AssembleForces_Primitives_1AssembleForces_Primitives_2AbortIfSameParentFeedback

ConstantPressureFprimInt (Deformable_RoundedTriangle Deformable_Triangle)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done
    • layer_width (default value = 0) — flat layer width

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Deformable_NGon_2_Data  <3 >
  ↓
RoundedTriangle_NGonConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesDistributeForcesAndMomentsToTriangle_2_NodesAssembleForces_DeformableTriangle_1AssembleForces_DeformableTriangle_2AssembleForces_Primitives_1AssembleForces_Primitives_2Feedback

ConstantPressureFprimInt (Deformable_RoundedTriangle Rigid_Cylinder)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_CylinderConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2AssembleForces_Primitives_1AssembleForces_Primitives_2Feedback

ConstantPressureFprimInt (Deformable_RoundedTriangle Rigid_CylinderBottom)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_Disk  <Bottom_Selector >
  ↓
ConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2AssembleForces_Primitives_1AssembleForces_Primitives_2Feedback

ConstantPressureFprimInt (Deformable_RoundedTriangle Rigid_CylinderTop)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_Disk  <Top_Selector >
  ↓
ConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2AssembleForces_Primitives_1AssembleForces_Primitives_2Feedback

ConstantPressureFprimInt (Deformable_RoundedTriangle Rigid_Quad)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done
    • layer_width (default value = 0) — flat layer width

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <4 >
  ↓
RoundedTriangle_NGonConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2AssembleForces_Primitives_1AssembleForces_Primitives_2Feedback

ConstantPressureFprimInt (Deformable_RoundedTriangle Rigid_RoundedTriangle)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRoundedTriangle_2_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <3 >
  ↓
RoundedTriangle_RoundedTriangleConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesDistributeForcesAndMomentsToTriangle_2_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2AssembleForces_Primitives_1AssembleForces_Primitives_2Feedback

ConstantPressureFprimInt (Deformable_RoundedTriangle Rigid_Triangle)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done
    • layer_width (default value = 0) — flat layer width

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <3 >
  ↓
RoundedTriangle_NGonConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2AssembleForces_Primitives_1AssembleForces_Primitives_2Feedback

ConstantPressureFprimInt (Deformable_RoundedTriangle Sphere)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Sphere0_2_DataRoundedTriangle_SphereConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleForces_Primitives_1AssembleForces_Primitives_2Feedback

ConstantPressureFprimInt (Rigid_RoundedTriangle Rigid_Cylinder)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_CylinderConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2AssembleForces_Primitives_1AssembleForces_Primitives_2Feedback

ConstantPressureFprimInt (Rigid_RoundedTriangle Rigid_CylinderBottom)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_Disk  <Bottom_Selector >
  ↓
ConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2AssembleForces_Primitives_1AssembleForces_Primitives_2Feedback

ConstantPressureFprimInt (Rigid_RoundedTriangle Rigid_CylinderTop)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_Disk  <Top_Selector >
  ↓
ConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2AssembleForces_Primitives_1AssembleForces_Primitives_2Feedback

ConstantPressureFprimInt (Rigid_RoundedTriangle Rigid_Quad)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done
    • layer_width (default value = 0) — flat layer width

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <4 >
  ↓
RoundedTriangle_NGonConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2AssembleForces_Primitives_1AssembleForces_Primitives_2Feedback

ConstantPressureFprimInt (Rigid_RoundedTriangle Rigid_RoundedTriangle)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done
    • abort_if_different (default value = 0) — If ‘True’, inverts the regular function of ‘AbortIfSameParent’, and makes the contact model early abort if the particles’ parents are different. Please do not change this ‘Property’ if you are not sure what you are doing.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRoundedTriangle_2_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <3 >
  ↓
RoundedTriangle_RoundedTriangleConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesDistributeForcesAndMomentsToTriangle_2_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2AssembleForces_Primitives_1AssembleForces_Primitives_2AbortIfSameParentFeedback

ConstantPressureFprimInt (Rigid_RoundedTriangle Rigid_Triangle)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done
    • layer_width (default value = 0) — flat layer width

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <3 >
  ↓
RoundedTriangle_NGonConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2AssembleForces_Primitives_1AssembleForces_Primitives_2Feedback

ConstantPressureFprimInt (Rigid_RoundedTriangle Sphere)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • Fprim1 (default value = None) — Array with vectors which stores the contact force per primitive for pc1. If not given, the array pc1[‘Fprim’] is searched first, and if not found, nothing will be done
    • Fprim2 (default value = None) — Array with vectors which stores the contact force per primitive for pc2. If not given, the array pc2[‘Fprim’] is searched first, and if not found, nothing will be done

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Sphere_2_DataRoundedTriangle_SphereConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2AssembleForces_Primitives_1AssembleForces_Primitives_2Feedback

ConstantPressureInt

Description: User-specified constant pressure is integrated over the rounded triangle contact area. Geometry combinations available:

PC2 | PC1 - Rigid_RoundedTriangle Deformable_RoundedTriangle
Sphere YES YES
Rigid_Triangle YES YES
Rigid_RoundedTriangle YES YES
Rigid_Quad YES YES
Rigid_CylinderTop YES YES
Rigid_CylinderBottom YES YES
Rigid_Cylinder YES YES
Deformable_Triangle   YES
Deformable_RoundedTriangle   YES

ConstantPressureInt (Deformable_RoundedTriangle Deformable_RoundedTriangle)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • abort_if_different (default value = 0) — If ‘True’, inverts the regular function of ‘AbortIfSameParent’, and makes the contact model early abort if the particles’ parents are different. Please do not change this ‘Property’ if you are not sure what you are doing.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRoundedTriangle_2_DataDeformable_NGon_1_Data  <3 >
  ↓
Deformable_NGon_2_Data  <3 >
  ↓
RoundedTriangle_RoundedTriangleConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesDistributeForcesAndMomentsToTriangle_2_NodesAssembleForces_DeformableTriangle_1AssembleForces_DeformableTriangle_2AbortIfSameParentFeedback

ConstantPressureInt (Deformable_RoundedTriangle Deformable_Triangle)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • layer_width (default value = 0) — flat layer width

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Deformable_NGon_2_Data  <3 >
  ↓
RoundedTriangle_NGonConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesDistributeForcesAndMomentsToTriangle_2_NodesAssembleForces_DeformableTriangle_1AssembleForces_DeformableTriangle_2Feedback

ConstantPressureInt (Deformable_RoundedTriangle Rigid_Cylinder)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_CylinderConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureInt (Deformable_RoundedTriangle Rigid_CylinderBottom)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_Disk  <Bottom_Selector >
  ↓
ConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureInt (Deformable_RoundedTriangle Rigid_CylinderTop)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_Disk  <Top_Selector >
  ↓
ConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureInt (Deformable_RoundedTriangle Rigid_Quad)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • layer_width (default value = 0) — flat layer width

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <4 >
  ↓
RoundedTriangle_NGonConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureInt (Deformable_RoundedTriangle Rigid_RoundedTriangle)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRoundedTriangle_2_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <3 >
  ↓
RoundedTriangle_RoundedTriangleConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesDistributeForcesAndMomentsToTriangle_2_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureInt (Deformable_RoundedTriangle Rigid_Triangle)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • layer_width (default value = 0) — flat layer width

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <3 >
  ↓
RoundedTriangle_NGonConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureInt (Deformable_RoundedTriangle Sphere)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataDeformable_NGon_1_Data  <3 >
  ↓
Sphere0_2_DataRoundedTriangle_SphereConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_DeformableTriangle_1AssembleForces_2Feedback

ConstantPressureInt (Rigid_RoundedTriangle Rigid_Cylinder)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_CylinderConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureInt (Rigid_RoundedTriangle Rigid_CylinderBottom)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_Disk  <Bottom_Selector >
  ↓
ConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureInt (Rigid_RoundedTriangle Rigid_CylinderTop)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_Cylinder_2_DataRoundedTriangle_Disk  <Top_Selector >
  ↓
ConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureInt (Rigid_RoundedTriangle Rigid_Quad)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • layer_width (default value = 0) — flat layer width

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <4 >
  ↓
RoundedTriangle_NGonConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureInt (Rigid_RoundedTriangle Rigid_RoundedTriangle)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • abort_if_different (default value = 0) — If ‘True’, inverts the regular function of ‘AbortIfSameParent’, and makes the contact model early abort if the particles’ parents are different. Please do not change this ‘Property’ if you are not sure what you are doing.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRoundedTriangle_2_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <3 >
  ↓
RoundedTriangle_RoundedTriangleConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesDistributeForcesAndMomentsToTriangle_2_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2AbortIfSameParentFeedback

ConstantPressureInt (Rigid_RoundedTriangle Rigid_Triangle)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.
  • Optional keywords:
    • layer_width (default value = 0) — flat layer width

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Rigid_NGon_2_Data  <3 >
  ↓
RoundedTriangle_NGonConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback

ConstantPressureInt (Rigid_RoundedTriangle Sphere)

User-specified constant pressure is integrated over the rounded triangle contact area.

Parallel Compatible: Yes

Properties:

  • Required keywords:
    • p — Constant contact pressure to be applied
    • pc1 — The first particle container in the binary contact detection.
    • pc2 — The second particle container in the binary contact detection. If contact detection within the same particle container is desired, and it is applicable for the contactmodel, pass the same pc to both pc1 and pc2.

This contact model is composed out of following pieces (click on the chain elements to get more information):

RoundedTriangleBoilerPlateRoundedTriangle_1_DataRigid_NGon_1_Data  <3 >
  ↓
Sphere_2_DataRoundedTriangle_SphereConstantPressure_Int  <16 >
  ↓
DistributeForcesAndMomentsToTriangle_1_NodesAssembleForces_1AssembleMoments_cps_1AssembleMoments_1AssembleForces_2AssembleMoments_cps_2AssembleMoments_2Feedback