Discover how heat resistant materials and material science innovations help electronics manufacturing manage rising temperatures, boost reliability, and enable smaller, more powerful next‑generation ...

At Nagoya University, researchers have tested heat-resistant and recyclable metal alloys for automotive and aerospace ...

A PhD researcher at the University of Science and Technology of China (USTC) has developed a new flame-resistant material ...

Fabric might be the last thing on your mind when firefighters rescue someone from a burning building, but without fire-resistant clothing, such rescues might not happen at all. The turnout gear that ...

From the outside, firefighter response gear doesn't look terribly high-tech. The coats, pants, gloves and boots don’t differ much from regular versions of the same items. But the makeup of this ...

Tianjin University scientists have developed a technique to significantly enhance the heat resistance of aluminum alloys. The new alloys can withstand temperatures up to 662°F, making them suitable ...

Electronic systems don't work well in heat – which is a problem, because apart from a few exceptions, heat is a normal byproduct of electricity. Researchers have now developed a thermal diode: a ...

In a previous article we reviewed rapid forming of thermoplastic composites (TPC). In the second part of this three-part series, we’ll explore the thermal processes and how these can be managed, ...

Synroc technology by ANSTO has been designed to supply a secure, safe matrix for the final disposal and immobilization of radioactive waste. Synroc technology will be utilized to control radioactive ...