A new study published in Nature Communications shows, for the first time, how heat moves—or rather, doesn't—between materials in a high-energy-density plasma state.

ConspectusRecent years have witnessed a surge in efforts to integrate electrically conductive nanomaterials into photopolymer-based additive manufacturing (AM), driven by the growing demand for ...

ADOPTING ADVANCED METHODS 3D printing enables greater design flexibility while also promising significantly reduced production times, ensuring high-performance heat exchangers tailored to ...

Experimental set-ups for a better insight into the fluid flow in CO2, geothermal, and heat networks applications ... to analyze large set of text data Federated Transfer Learning: A novel technology ...

However, efficient heat dissipation remains a critical challenge, directly affecting their performance, reliability, and lifespan. High-power electronics based on wide- and ultrawide-bandgap ...

This study was made available online in the International Journal of Heat and Mass Transfer. "While fluid motion has a characteristic time scale for recovery and relaxation, viscoelastic fluids ...

Understanding the differences among key temperature-control devices, such as heaters, coolers and heat exchangers, allows users to realize their unique benefits When it comes to temperature control in ...