In situ composite manufacture is an approach to improve interfacial adhesion between
matrix and reinforcements, in which reinforcements are synthesized along composite …

Based on the need to fabricate new or modified materials that possess demanding
mechanical and wear properties that are needed for operation in extreme environmental …

Abstract Al 0.3 CoCrFeNi high-entropy alloy (HEA) prepared by mechanical alloying was
used as a metal binder for the Ti (C, N)-based cermets by hot-pressing sintering. Room …

By a combination of mechanical activation, combustion synthesis, and spark plasma
sintering methods, bulk materials in the Hf-Zr-CN system with various Hf/Zr atomic ratios …

Titanium matrix composites (TMCs) reinforced with discontinuous ceramics and
carbonaceous materials are increasingly attracting the attention of researchers and material …

Ceramic-reinforced Ti matrix composites were prepared by in situ spark plasma sintering
(SPS). The reaction products and reaction mechanisms during sintering were studied by …

A novel reaction hot pressing process was developed for the fabrication of in situ (Mo, Ti)(C,
N)-based cermets without a conventional core/rim structure. Moreover, the reaction …

Powder metallurgy (P/M) route is commonly adopted to fabricate titanium-matrix composites
(TMCs). However, majority of the reinforcements are distributed along the grain boundaries …

Ti (C, N)-based cermet is a kind of composite material composed of a metal binder phase
and a Ti (C, N)-hard phase, which is widely used in the fields of cutting machining and wear …

In the work, multi-layer nano CrAlN/TiAlN composite coating was deposited on the cermets
with CrFeCoNiMo, CrFeCoNiMn, CrFeCoNiAl high entropy alloy phase. Growth and …