Recent advancements in automotive, aerospace and power generation industries have inspired materials scientists to engineer innovative materials. Ceramic metal composites, or cermets, are an example ...

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 ...

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 preparation of dense Si 3 N 4-based ceramics has attracted great attention due to the achievable improvements in mechanical properties and high-temperature oxidation resistance. In general, the ...

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, ...

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 ...

Recently, ceramic laser technology has emerged as a promising candidate because of its numerous advantages over single-crystal lasers. First, ceramics can be produced in large volumes, which makes ...

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

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 ...