FEM ConstraintContact: Difference between revisions

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Creates a contact constraint between 2 surfaces.
Creates a contact constraint between 2 surfaces. Unlike in the case of [[FEM_ConstraintTie|tie constraint]], the surfaces can separate and slide on each other (with or without friction) during the analysis.


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==Usage== <!--T:3-->

Revision as of 18:53, 30 January 2024

FEM ConstraintContact

Menu location
Model → Mechanical boundary conditions and loads → Contact constraint
Workbenches
FEM
Default shortcut
None
Introduced in version
-
See also
FEM Constraint fixed

Description

Creates a contact constraint between 2 surfaces. Unlike in the case of tie constraint, the surfaces can separate and slide on each other (with or without friction) during the analysis.

Usage

  1. There are several ways to invoke the command:
    • Press the Contact constraint button.
    • Select the Model → Mechanical boundary conditions and loads → Contact constraint option from the menu.
  2. Select the master face.
  3. Select the slave face.
  4. Enter a contact stiffness.
  5. Enter a friction coefficient.

Limitations

  • The contact constraint can only be applied to two faces.
  • Development for multiple contact at once: https://forum.freecadweb.org/viewtopic.php?f=18&t=15699&start=130#p303275
  • Because multiple meshes are currently not supported, contact must be applied to faces that are separated by (at least) a small distance. If the faces were touching (no gap between them), the result of a boolean union or boolean fragments operation (necessary to avoid having multiple meshes which is not allowed at the moment) would be a continuous mesh and thus no need to use contact anymore. See Forum discussion.

Notes

Tips for modeling

  • From: https://forum.freecadweb.org/viewtopic.php?f=18&p=340874#p340494
  • The use of linear elements is recommended. Otherwise, calculations can be very time-consuming.
  • Master/slave assignment:
    • The larger of the two surfaces should act as the master surface.
    • If the surfaces are of comparable size, the surface on the stiffer body should act as the master surface.
    • If the surfaces are of comparable size and stiffness, the surface with the coarser mesh should act as the master surface.

CalculiX

  • A very detailed CalculiX contact example. (link)
  • An interesting example found in the FreeCAD German subforum. (link)