Copper matrix composites (CMCs) are engineered materials in which a copper matrix is reinforced by ceramic particles, carbon-based nanomaterials or other high-strength inclusions to enhance mechanical ...

As opposed to conventional metal alloys, metal matrix composites (MMCs) possess inimitable physical, thermal, electrical, chemical, and mechanical properties that make them most suitable in today’s ...

Our ongoing endeavor to venture into outer space demands substantial technological advances across various fields, including materials science. Materials used in the aerospace industry must be ...

Researchers from Tomsk Polytechnic University, together with their colleagues from China, have proposed a new method to ...

Graphene is an extraordinary material, the only basic member of a family of 2D carbon materials. With its unique mechanical and physical properties, it is a superb filler at the nanoscale, in metal ...

New materials with improved mechanical properties are constantly needed to keep up with the rapid advancements in the mechanical industry. Graphene and carbon nanotube-reinforced metal matrix ...

Lightweighting remains the holy grail of the automotive industry. Legacy materials such as high strength steels, aluminium alloys and carbon fibre all have their limitations and despite the promises ...

Thermo-compression processing optimizes Cu/SiC composites, improving strength and toughness by improving particle distribution and reducing residual porosity.

Ceramic matrix composites (CMCs) have emerged as a critical class of materials for demanding high-temperature applications due to their unique combination of properties, including: However, ...

TISICS’s innovative metal composites will reduce carbon emissions by 9 million tonnes annually and save airlines £650k in fuel costs per year per aircraft. TISICS, a leading metal composites company, ...