COMSOL Multiphysics^® 6.3 Release Highlights

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Composite Materials Module Updates

For users of the Composite Materials Module, COMSOL Multiphysics^® version 6.3 provides new microstructure geometry parts, a material library for composite materials, and four new tutorial models. Learn more about these updates below.

New Microstructure Geometry Parts

A new microstructure geometry part for bidirectional spread-tow fiber composites is now available. This part features a unit cell with fiber strands arranged in a plain weave, embedded within a matrix. You can find it in the Part Libraries under the COMSOL Multiphysics branch, within the Unit Cells and RVEs folder. This part is showcased in the Dome Tweeter with Composite Diaphragm — Eigenfrequency Analysis tutorial model.

Additionally, a new add-in to generate geometry parts for random-particulate composites has been added under the COMSOL Multiphysics branch of the Add-in Libraries window.

A transparent geometry part with fiber strands in a matrix.

A transparent cube geometry with multiple spheres within it.

The new bidirectional spread-tow fiber composite geometry part (left) and a random-particulate composite geometry part generated by the add-in (right).

The COMSOL Multiphysics UI showing the Model Builder with the Random Particulate Composite RVE node highlighted, the corresponding Settings window, and two Graphics windows.

The user interface (UI) showing the bidirectional spread-tow fiber composite geometry part and the add-in used to generate a random-particulate composite geometry part.

Composites Material Library Folder

The new built-in folder for Composites is divided into three groups of materials: fiber constituents, matrix constituents, and laminae. This functionality makes it easier to set up models with common types of composite plies. You can view these new materials being used in the following tutorial models:

The Material Browser in COMSOL Multiphysics showing the properties of a selected composite material.

The new Composites folder in the material library.

Layered Shell Interface Improvements

There are four main improvements to the Layered Shell interface:

The kinematics has been improved to account for large deformations.
A new coordinate system, Layer Local System, has been added to several physics features.
Solver suggestions for multiphysics problems have been improved.
The Creep, Viscoplasticity, and Polymer Viscoplasticity material models can now be used together with hyperelastic material models.
- Note that the Creep, Viscoplasticity, and Polymer Viscoplasticity material models require the Nonlinear Structural Materials Module.

The COMSOL Multiphysics UI showing the Model Builder with the Prescribed Displacement node highlighted, the corresponding Settings window, and two Graphics windows with an impeller model in both.

Nonzero displacement and negligible von Mises stress in a composite blade when rigidly rotated from 0 to 180 degrees.

New Tutorial Models

COMSOL Multiphysics^® version 6.3 brings several new tutorial models to the Composite Materials Module.

Dome Tweeter with Composite Diaphragm — Eigenfrequency Analysis

Three dome tweeter models showing the mode shape in green and purple.

First mode shape of a diaphragm made of titanium (left), composite material one (middle), and composite material two (right).

Application Library Title:
composite_dome_tweeter_eigen
Download from the Application Gallery

Dome Tweeter with Composite Diaphragm — Frequency-Domain Response*

Three dome tweeter models showing the acoustic pressure in red and blue.

Acoustic pressure around a dome tweeter with the diaphragm made of titanium (left), composite material one (middle), and composite material two (right).

Application Library Title:
dome_tweeter_composite_63
Download from the Application Gallery

*Requires the Acoustics Module