The researchers, Apurv Dash (left) and Jesus Gonzalez-Julian (right). Credit: Apurv Dash/ Forschungszentrum Jülich GmbH Non-oxide ceramics have many potential industrial applications due to their ...

Ceramics are a class of inorganic, non-metallic materials held together through ionic and covalent bonding. Their atomic structure is defined by a rigid lattice network formed during high-temperature ...

Ceramic materials are engineered through a sequence of processing steps that begin with powder synthesis and end with controlled thermal treatments. Initial stages involve the selection and milling of ...

A Virginia-based firm is set to advance ceramic materials research for extreme aerospace and ...

WEST LAFAYETTE, Ind. – A new project will study the fundamental mechanisms behind a method that uses electrical fields to enhance ceramics-sintering processing to manufacture components for a range of ...

The key technical focus is on novel, challenging and advanced material processing at temperatures between 200 ° C to 3000 ° C. Batch and continuous processing, highly accurate atmospheric controls, ...

The ceramic industry faces increasing pressure to reduce energy consumption, raw material depletion, and CO₂ emissions associated with conventional ...

A multilayer technology developed by substrate manufacturer Lamina Ceramics (Westampton, NJ) enables unfired ceramic to be bonded to either Kovar or copper-molybdenum-copper (CuMoCu) metal. Offering ...

Missouri S&T is collaborating on the project with researchers at the University of California, Davis and the University of Pittsburgh. The Air Force Office of Science and Research is funding the ...

A study has developed an innovative method that overcomes the limitations of traditional additive manufacturing (3D printing), significantly simplifying and accelerating the production of ...