Dr. Peter Ouma Okeyo and Dr. Peter Emil Larsen speak to AZoM about a new drug discovery technique using single particles as resonators for thermomechanical analysis. What inspired your research into ...

Vinci’s physics AI foundation model delivers deterministic, solver-accurate warpage analysis across extreme scales—already in production use at leadin ...

Go from analyzing thermomechanical properties to using that data to design new kinds of polymeric materials, including next gen self-healing polymers. First learn the basics of thermal analysis with ...

Thermal analysis is typically applied during the development of polymer and electronics materials to characterize new materials and validate the performance of existing ones. With a wide range of ...

Shallow and insufficient soil support may lead to upheaval buckling of heated pipelines in shore approach areas. This article presents a numerical model to simulate the thermomechanical buckling of ...

Full-scale, 55-meter test rig at EPRI's Charlotte laboratory and tested cable samples. Underground transmission extruded-dielectric cables in North America are typically installed in duct-manhole ...

It is frequently possible to detect and calculate materials by reference to their characteristic transition temperatures and thermal steadiness. However, a significant limitation of traditional ...

The STARe software is the industry standard for thermal analysis, offering practically infinite evaluation possibilities. Its distinguishing characteristics include modularity, adaptability, and ...

The Thermal Analysis (VITA) module enables nanoscale thermal analysis (nTA), a novel technique that allows the determination of the local transition temperature on the surface of a material with ...