A physics informed machine learning model predicts thermal conductivity from infrared images in milliseconds, enabling fast, ...

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 ...

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 ...

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

All of this is prompting chip designers to explore new strategies to dial down the heat. These include using exotic materials like graphene and diamond, incorporating advanced packaging techniques ...

Rising Demand for Advanced Heat Exchanger Materials The global heat exchanger market is undergoing a structural upgrade, driven by energy efficiency requirements, environmental regulations, and the ...

Most crystalline materials conduct heat by transferring vibrational energy as acoustic waves between atoms in an ordered lattice. External pressure forces the atoms in a crystal lattice closer ...

With just one measurement, the Hot Disk TPS technique can quickly and easily estimate the material's thermal diffusivity and thermal conductivity. It also gives the user a volumetric heat capacity ...

Engineering Precision Drives SiSiC Adoption The global heat exchanger and thermal management industry is undergoing a significant transformation. Driven by energy efficiency targets, environmental ...

Autonomous vehicles redefine the car from a mechanically centered product into a fully integrated electronic system. As the number of core electronic components such as sensors, system-on-chips, and ...