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Blog Posts Tagged Structural Mechanics Module

Damping in Structural Dynamics: Theory and Sources

March 14, 2019

Here’s your introduction to the theory behind damping in vibrating structures, as well as its sources, including internal losses, friction, sound emission, and more. Part 1 of 2.

Performing a Multiphysics Analysis of a Thermal Microactuator

March 8, 2019

To design an optimized thermal microactuator for use in a specific device, you need to account for tightly coupled electrical, thermal, and structural phenomena in your analysis.

Analyzing an Arterial Self-Expanding Stent with COMSOL Multiphysics®

February 6, 2019

Interested in bioengineering? Read this overview of a self-expanding arterial stent modeled in COMSOL Multiphysics® with an implemented shape memory alloy material.

How to Perform Structural Analyses Using Shock Response Spectra

January 30, 2019

Mechanical engineers: Learn how to find shock response spectra, use combination methods for eigenmodes, perform missing mass correction, and display your results with the COMSOL® software.

Keynote Video: EPFL Uses Simulation to Design a Hyperloop Pod

January 22, 2019

The EPFLoop team used multiphysics simulation to design the aeroshell, pressure vessel, and braking system of their hyperloop pod for the SpaceX 2018 competition. Get an inside look here.

Simulating Fluid-Structure Interaction in a Ball Check Valve

January 21, 2019

Simulate FSI in a ball check valve to find the flow rate, fluid pressure, and fluid velocity. The COMSOL® software includes a predefined multiphysics coupling that makes it simple.

Comparing 2 Shock Response Analyses for a Computer Circuit Board

January 18, 2019

Before hitting the market, motherboards and other fragile electronic components need to be able to withstand certain mechanical shock loads. That is where shock response analysis comes in.

How to Model Fluid Friction in Joints with COMSOL Multiphysics®

January 9, 2019

Follow along as we demonstrate how to model fluid friction in joints using 2 rotordynamics examples: a piston and a reciprocating engine.