Blog Posts Tagged Structural Mechanics Module
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 >>
Designing Fully Superconducting Rotating Machines
Researchers from the Department of Mechanical Engineering at the University of Houston used simulation to investigate the stress and heat distribution in superconducting rotating machines >>
Stress and Fatigue in Modular Implants Used in Hip Joints
A crucial part of the design process for modular implants, such as replacement joints, is to study how the modular combination of parts will behave under dynamic loads and stresses.
Converting the High Flux Isotope Reactor to LEU Fuel
Learn about an initiative that requires nuclear research reactors currently using highly enriched uranium fuel to be converted to low enriched uranium fuel — and how simulation can help.
Seas of Change for Wind Turbines
One benefit of placing wind turbines offshore? They can’t be heard! Even better? High winds occur with more regularity offshore, making energy production more effective!
Air Pressure Sensor Performance Relies on a Solid Design
Ever wonder how your car can tell when there’s low pressure in a tire? Sensors are placed at the bottom of each tire hub and measure air pressure automatically while the car is in motion.
Improving Your Golf Swing with a Multibody Analysis
The outcome of a golf stroke is determined by the movement of the club head just prior to impact with the ball. Therefore, one theoretically could improve their golf swing via multibody analysis.
How to Model Residual Stresses Using COMSOL Multiphysics
Learn how to compute the residual stresses in your structural mechanics models. To demonstrate, we use the example of a deep metal drawing process. Read on…