AOS Thermal Compounds’ Microfaze 3 A-4 is a non-silicone thermal pad that exhibits low thermal resistance. It was designed to replace phase change materials and even high performance thermal grease. The pad is composed of 1 mil films of high thermal conductivity, tacky, but dry-to-the-touch thermal grease on either side of a 2 mil aluminum foil substrate. Learn more from AOS … [Read more...]
Breakthrough Thermal Material System to Enable Faster Computing
Scientists in GE’s Global Research Center have demonstrated an advanced thermal material system that could lead to faster computing and higher performing electronic systems. They have fabricated a prototype substrate that can cool electronic devices, such as a laptop, twice as well as copper. The development of GE’s prototype substrate, which utilizes phase-change-based heat … [Read more...]
Researchers Developing Silver-Diamond Thermal Shim
Researchers at the Georgia Tech Research Institute are developing a solid composite material, made of silver and diamond to cool small, powerful microelectronics used in defense systems. The diamonds provide the bulk of thermal conductivity, while the silver suspends the diamond particles within the composite and contributes to high thermal conductivity. The research is … [Read more...]
Thermal Gap Filler Wins Editor's Choice Award
The Tflex™ XS400 Series thermal gap filler won Military Embedded Systems Magazine’s Editor’s Choice award for November/December. The Tflex™ XS400 Series received the award for its commercial, off-the-shelf (COTS) properties, which makes it well-suited for military defense applications. Tflex™ XS400 is a compliant elastomer gap filler designed to provide moderate thermal … [Read more...]
Nanocomposite Approach Enhances Thermoelectric Materials
Thermoelectric materials hold great promise for turning waste heat back into useful power and are touted for use in hybrid cars, new and efficient refrigerators, and other cooling or heating applications. However, they are very inefficient so researchers have to find ways of boosting the performance of thermoelectric materials by separating the electrical and thermal … [Read more...]
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