Capacitive sensing is used in many applications, including proximity, pressure, displacement, position, and acceleration sensors. Predicting the real-world performance of capacitive devices, including ...

AI-powered physics simulations are speeding up design cycles, cutting costs, and enabling more creative engineering solutions. By combining traditional multiphysics modeling with machine learning, ...

Many technologies rely on electric discharge phenomena, including consumer electronics, medical devices, and high-voltage power systems. During product development, it is highly beneficial to simulate ...

Researchers have developed a detailed three-dimensional electro-thermo-mechanical model to identify and quantify the swelling force generated by lithium-ion batteries during charging, offering a new ...

AI-driven large physics models are changing engineering by reducing simulation times from weeks to minutes. Automotive, aerospace, and manufacturing teams now explore more design variations earlier in ...

How in-house-developed and third-party general-purpose simulation tools are limited to a few expert users and aren’t easily shareable. How multiphysics simulation of subsystems can result in an ...

COMSOL, the developer of the COMSOL Multiphysics® simulation software, has introduced a new online resource that provides free and open access to modeling and simulation learning material across all ...

In the age of Industry 4.0, manufacturers are expected to develop increasingly sophisticated, digitally integrated products while controlling development costs and accelerating time to market.

As U.S. energy demand increases, advanced nuclear energy has emerged as an important option for 24/7 reliable electricity and heat generation. Nuclear engineers in national laboratories and private ...

All-solid-state battery configuration with the abstract model. Various surface coating strategies are investigated by the proposed multiphysics model in terms of electrochemical-mechanical coupled ...