The common engineering ceramic materials can be identified as Aluminium Oxide (Alumina), Silicon Carbide, Silicon Nitride, Sialon and Zirconia. These materials are classified as “Engineering” or ...

TRUNNANO (Luoyang Tongrun Nano Technology Co., Ltd.) announced a strategic expansion of its business scope, extending from ...

Compared to metal and polymer-based materials, ceramics can better withstand high temperatures and corrosive environments, but their brittle nature often makes them susceptible to breakage. This ...

In the history of engineering ceramics applications, there have been many examples where imitated designs based on a metal’s performance have resulted in considerable failures of ceramic components.

Scientific and technological advances shape the face of industry today. In order for engineers, technologists and managers to keep up with the swift changes in the field, they must be lifelong ...

Zirconium carbide (ZrC) ceramics, essential for hypersonic vehicles and next-generation nuclear systems, are notoriously difficult to sinter and are inherently brittle. Researchers have now developed ...

B.S., Ceramic Engineering, University of Missouri, Rolla M.S., Materials Science and Engineering, Georgia Institute of Technology Ph.D., Ceramic Engineering ...

In a breakthrough that blends ancient design with modern materials science, researchers have developed a new class of ceramic structures that can bend under pressure -- without breaking. In a ...

The use of ceramics dates back some 25,000 years, to the oldest human settlements’ use of clay vessels and sculptures. These ceramics, as well as infrastructure components such as bricks, tiles, and ...

Scientists at Harbin University in China have devised a novel two-step process that uses ...