Structural Mechanics Blog Posts
Membrane Interface Improvements in Version 5.0
As of version 5.0 of COMSOL Multiphysics®, the Membrane interface includes a restructured menu, new feature nodes, improvements to the Linear Elastic Material model, and more.
Which Fatigue Model Should I Choose?
Have you ever asked yourself, “Which fatigue model should I use in my simulations?” If so, read this blog post for a comprehensive overview of the available Fatigue Module models.
Coupling Structural Mechanics Interfaces
The Structural Mechanics Module consists of specialized interfaces: Solid Mechanics; Shell, Plate, and Membrane for modeling thin structures; and Beam and Truss for modeling slender structures.
Video Tutorial: Introduction to Modeling Structural Mechanics
Learn the fundamentals of simulating structural mechanics problems in the COMSOL® software: Get a quick overview in this blog post, with an embedded video tutorial included.
Using Effective Mass for Thermomechanical Calibration
Researchers from the University of Alberta use simulation for an efficient and noninvasive way to achieve thermomechanical calibration. Learn more about their research and its applications.
Thermal Contact Resistance Simulation
When 2 materials are in direct contact, thermal conductivity is determined by their properties, but surface roughness introduces air-filled gaps between the materials. How do you model this?
Reducing Vibrations with Viscoelastic Structural Dampers
Whether caused by an earthquake or everyday wind, when a structure undergoes vibrations, its components experience stresses and strains. Viscoelastic structural dampers can help >>
Simulating Wear in COMSOL Multiphysics
A guest blogger from Veryst Engineering, a COMSOL Certified Consultant, shares how he implemented a wear model in COMSOL Multiphysics® and validated it by simulating a pin-on-disc wear test.