Epoxy resins are widely used because of their properties of adhesion, electronic insulation and heat and chemical resistance. The properties of resins can be adjusted by altering the chemical ...

LaserComp Inc.´s Fox50 tests thermal conductivity of polymers, composites and other materials in accordance with ASTM C 518 and ISO 8301. With step-by-step instructions on a four-line LCD display, the ...

Semiconductors are a key component in smartphones, televisions, and other devices used in daily life using these devices generates heat, resulting in performance degradation and a shorter product life ...

Thermal interface materials (TIMs) are crucial for managing heat in AI data centers and 5G networks, ensuring optimal performance and system reliability.

Great conductor: A sequence showing how thermal energy, which is carried by electrons, spreads through theta-phase tantalum nitride after the metallic material is struck by a pulse of light, from 0.1 ...

University of Houston researchers have made a groundbreaking discovery in thermal conductivity, overturning an existing theory that boron arsenide (BAs) couldn’t compete with the heat conduction of a ...

The material exhibits an exceptionally low lattice thermal conductivity of ~0.18 W/m·K, placing it among the lowest known for crystalline solids.

Passive thermal control relies on design features and materials like insulation layers, reflective coatings, and thermal barriers. Because passive solutions have no moving parts, they require less ...

Most materials have an inherent capacity to handle heat. Plastic, for instance, is typically a poor thermal conductor, whereas materials like marble move heat more efficiently. If you were to place ...