There are two fundamental ways to create and use multiphysics couplings: using Predefined Multiphysics Interfaces or
Adding Physics Interfaces Sequentially and then creating the multiphysics couplings using
The Add Multiphysics Window or adding them suing
The Multiphysics Node or manually in the physics interface settings by using a model input or by directly typing an expression using a dependent variable from another physics interface, for example.
The Joule Heating Interface is an example of a predefined multiphysics interface. Many other multiphysics interfaces are available depending on the products included in your COMSOL license. After
Joule Heating is selected from
The Model Wizard, the
Heat Transfer in Solids interface, the
Electric Currents interface, and a
Multiphysics node, including the default features applicable to the coupling (
Electromagnetic Heat Source,
Boundary Electromagnetic Heat Source, and
Temperature Coupling), are displayed under the
Added physics interfaces list as in
Figure 3-12.
Figure 3-13 shows you what is included in the Model Builder when a predefined multiphysics interface is added. Compare to
Figure 3-14 where individual physics interfaces are added, and these features are initially accessible only from the context menu.
An empty Multiphysics node is added automatically when two (or more) physics interfaces are set up in a model and when there is the possibility to couple the physics interfaces. In other words, if you add physics interfaces one at a time, and the software identifies these physics interfaces as being of the multiphysics category, the
Multiphysics node is automatically added to the Model Builder. The relevant features are made available from the context menu (right-click the
Multiphysics node) as well as from the
Physics toolbar,
Multiphysics menu. See
Figure 3-14. You can also add predefined multiphysics couplings from the
Add Multiphysics window (see
The Add Multiphysics Window), which then adds all the necessary multiphysics coupling node under the
Multiphysics node. Using a sequential approach makes it possible to analyzed and validate one physics at the time before solving the full multiphysics model.