The Acoustic-Poroelastic Waves Interaction Interface

The interface (

) combines Pressure Acoustics, Frequency Domain and Poroelastic Waves together with the Acoustic-Porous Boundary multiphysics coupling feature.

On the Constituent Physics Interfaces

The Pressure Acoustics, Frequency Domain interface computes the pressure variations when modeling the propagation of acoustic waves in fluids at quiescent background conditions. The physics interface solves the Helmholtz equation and is suited for all linear frequency-domain acoustic simulations with harmonic variations of the pressure field. It includes domain conditions to model losses in a homogenized way, so-called fluid models for porous materials, as well as losses in narrow regions. The domain features also include background incident acoustic fields.

The Poroelastic Waves interface is used to compute the displacement field and acoustic pressure fluctuation in porous materials with propagating poroelastic waves. Examples of applications include the propagation of elastic waves in rocks and soils, modeling the acoustic attenuation properties of particulate filters, characterizing sound absorbers and liners, or modeling the porous foams in headphones. The physics interface is valid for modeling the propagation of the coupled linear elastic and linear acoustic waves in the frequency domain. Harmonic variations of the displacement field and the sources are assumed. In the porous domains, Biot’s equations are solved accounting for the coupled propagation of elastic waves in the elastic porous matrix and pressure waves in the saturating pore fluid. This includes the damping effect of the pore fluid due to viscous losses only (the Biot model) or the combined effect of viscous and thermal losses (the Biot-Allard model).

When a predefined interface is added from the branch (

) of the or the windows, the and interfaces are added to the Model Builder.

In addition, the node is added, which automatically includes the multiphysics coupling features .


	See The Multiphysics Node and Multiphysics Modeling Approaches in the COMSOL Multiphysics Reference Manual.

Settings for Physics Interfaces and Coupling Features

When physics interfaces are added using the predefined coupling features, for example , the on the coupling feature is automatically set to . In this way the multiphysics coupling is automatically active on all boundaries with on one side and on the other.

However, if physics interfaces are added one at a time, followed by the coupling features, these modified settings are not automatically included.

For example, if single and interfaces are added, COMSOL adds an empty node. You can choose the available coupling features, but you need manually to select on which boundaries they need to be applied, or select to recover the predefined behavior


	Coupling features are available from the context menu (right-click the Multiphysics node) or from the Physics toolbar, Multiphysics menu.

Physics Interfaces and Coupling Features


	Use the online help in COMSOL Multiphysics to locate and search all the documentation. All these links also work directly in COMSOL Multiphysics when using the Help system.

Coupling Feature

The Acoustic-Porous Boundary coupling feature nodes is described in the Multiphysics Couplings chapter.

Physics Interface Features

Physics nodes are available from the ribbon toolbar (Windows users), context menu (Mac or Linux users), or right-click to access the context menu (all users).


	In general, to add a node, go to the Physics toolbar, no matter what operating system you are using. Subnodes are available by clicking the parent node and selecting it from the Attributes menu.

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The available physics features for The Poroelastic Waves Interface are listed in the section Domain, Boundary, and Pair Nodes for the Poroelastic Waves Interfaces

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The available physics features for The Pressure Acoustics, Frequency Domain Interface are listed in the section Domain, Boundary, Edge, Point, and Pair Nodes for the Pressure Acoustics, Frequency Domain Interface