Contacts

Contact definitions are necessary in cases when the simulation domain doesn’t consist of one part – built from a single material, but an assembly of parts, often built from different materials, and even combining fluids and solids in the case of multi-physics simulations. A realistic model requires a setup where the relations between the multiple components is fully defined.

SimScale accepts multi-part models for simulation in the following domains:

Solid Mechanics

In terms of contact definitions, solid mechanics simulations include:

• Static
• Dynamic
• Heat Transfer
• Thermomechanical
• Frequency Analysis
• Harmonic

For these simulations, a distinction is made between linear and non-linear (physical) contacts. Linear contacts work under the assumption that the parts remain bonded or have small relative deformations, while non-linear contacts can take into account large sliding, separation and collision between the parts.

In the following pages, the details on the modeling and setup of contacts and solid mechanics are given:

Linear Contacts

Physical Contacts

Conjugate Heat Transfer

For the Conjugate Heat Transfer solver, the contacts are also referred to as ‘interfaces‘. The interfaces can be between two solids or between a solid and a fluid, and allow to capture the heat transfer between the parts. More details about interfaces in heat transfer can be found in the following page:

Contacts in Conjugate Heat Transfer

Conflict Resolution and Optimization

The two surfaces that are in contact are classified as Master and Slave. Every node in the slave surface (slave nodes) is tied to a node in the master surface (master node) by a constraint.

1. Please be aware that one face can not be the slave assignment of multiple contact definitions simultaneously. This also applies for shared edges and nodes between surfaces of different contact definitions.
2. Generally, the more refined of the two periodic boundary surfaces should be chosen to be the Slave. In the case of cyclic symmetry, this will, in most cases, not matter since both faces should be meshed with nearly the same element sizes.
3. There are some general rules that help you to decide which of the contact faces or sets to choose as master and which to choose as slave entities. Although those rules do not apply strictly in every case, they provide a good starting point. Choose as slave entities, face(s) if:

• it is considerably smaller than the counterpart.
• it is more curved, compared to the other part of the contact pair.
• it belongs to the more flexible part, especially if the other part is constrained in displacement.
• it has a considerably finer mesh than the counterpart.

Automatic contact detection tries to always find an optimized solution, therefore it is preferable to use automatic contact detection instead of manually constraining the system. Conflicting contacts are marked with a warning icon in the contact list. A more detailed description of the conflict type and how to resolve it can be found on top of the contact settings panel.

Another warning in case of remaining conflicts is shown on run creation, along with an additional check to detect underconstraints in the system.

In case conflicts can not be resolved manually or by automatic contact detection, consider imprinting your CAD geometry.

Last updated: September 5th, 2022