Latest Posts
Part 1: Editing and Repairing Surface Meshes in COMSOL Multiphysics®
COMSOL Multiphysics® includes several operations for modifying imported surface meshes. You can create, intersect, partition, and join entities, adapt and refine mesh elements, and more.
How to Define Load Cycles in Battery Models: Part 2
In this blog post, we cover a straightforward approach to defining load cycles in battery models in COMSOL Multiphysics®. Part 2 of a 2-part series.
Reduced-Order Modeling of Ultrasonic Pipe Measurements
A guest blogger from SINTEF demonstrates how they use 2D axisymmetric simplification to reduce computation time for their pulse-echo simulations.
Corrosion Control, Protective Coatings, and the Role of Simulation
Earlier this year, we attended the Association for Materials Protection and Performance’s Annual Conference + Expo. Check out our recap here!
Inductive Heating of Temperature-Dependent Magnetic Materials
When modeling induction heating processes, incorporating the nonlinearities of the magnetic materials is necessary for accurate results. Learn how to use the AC/DC Module to include such nonlinearities in your simulations here!
Modeling of Excitations with the Magnetic Field Formulation
Get a quick look at 5 interfaces for modeling time-varying magnetic fields and inductive effects in the AC/DC Module. Then, learn how to use one of them for modeling inductive phenomena.
Insights from the 51st Stanford Geothermal Workshop
The 51st Stanford Geothermal workshop had record attendance and 200+ technical papers presented. View some of the event’s highlights here!
Modeling Argon Sputtering on a Silicon Surface
Sputtering is used in semiconductor processing to deposit thin, uniform films on substrates. See an example of how COMSOL Multiphysics® can be used to better understand this process.
