Types of Contact

You can apply multiple contact conditions to override the global contact setting by adding component contact and local contact sets.

No Penetration Available for static, drop test, and nonlinear studies. This contact type prevents interference between Set 1 and Set 2 entities but allows gaps to form. This is the most time-consuming option to solve.

Video: No Penetration Contact

Bonded Available for all types of studies that require meshing. The program bonds the Set 1 and Set 2 entities. The entities may be touching or be within a small distance from each other. If there is a gap between the entities, the program issues a warning message that the physical gap between the bonded entities may produce incorrect results. The user may still insist in defining a bonded contact set. The software then enforces a bonding set regardless of the existing tolerance between the selected entities.
For drop test studies, you can only bond touching faces. Compatible bonding is enforced via component or global contact. Local bonded contact sets with incompatible bonding are not supported.

See Bonded Contact.

For a study with mixed mesh (used automatically by program), you can bond Set 1 entities (vertices, edges, faces, beam joints, and beams) to Set 2 faces. Vertices, edges, and faces can belong to shells or solids. The behavior of the bond depends on whether the source entity belongs to a solid or a shell. If the source entity belongs to a shell or beam, the bond acts like a rigid connection where the original angle between the shell or beam and the solid is maintained during deformation. If the source entity belongs to a solid, the bond acts like a hinge, where the original angle between the shell and the solid is not necessarily maintained.

When bonding a shell edge to a solid or shell target face, the software rigidly bonds each node of the edge to the nearest element's face on the target. The rigidity of the connection depends on the element size near the interface. To improve accuracy, the element size on the target face should be equal to the thickness of the shell if no weld is used. If a weld is used, the element size on the target face should be equal to the weld size.
Shrink Fit Available for static and nonlinear studies only. You select faces from two components that are initially interfering with each other. Click Tools > Evaluate > Interference Detection to make sure that the faces are interfering.
Allow Penetration Available for static, nonlinear, frequency, buckling, and drop test studies. The program treats Set 1 and Set 2 (source and target) faces as disjointed. For static and nonlinear studies, the loads are allowed to cause interference between parts. Using this option can save solution time if the applied loads do not cause interference. Do NOT use this option unless you are sure that loads will not cause interference. Plot the deformed shape with a scale factor of 1.0 to check for interference. Only Set 1 and Set 2 entities are required to define this contact type.

See Free Contact.

Virtual Wall Available for static studies only. This contact type defines contact between the Set 1 entities and a virtual wall defined by a target plane. The target plane may be rigid or flexible. You can define friction between the Set 1 entities and the target plane by assigning a non-zero value for the friction coefficient.
Insulated Available for thermal studies only. This option is similar to the Allow Penetration option for structural studies. The program treats Set 1 and Set 2 as disjointed. The program prevents heat flow due to conduction through the Set 1 and Set 2 entities.
Thermal Resistance Available for thermal studies only. This option allows you to specify thermal resistance between Set 1 and Set 2 faces.