High-entropy materials (HEM), including alloys, ceramics, and composites, are a novel class
of materials that have gained enormous attention over the past two decades. These multi …

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

A novel laser additive manufacturing method is proposed to manufacture the agglomeration-
free nanoscale TiC-reinforced titanium-matrix composites by in-situ compounding the …

In this work, we prepared titanium matrix composites (TMCs) reinforced with in-situ
polycarbosilane (PCS)-derived TiC particles. The effects of PCS addition on the …

Titanium alloys have been applied for many lightweight structural components in the fields of
aerospace, automobiles and biomedical implants owing to their light-weight, good …

The simultaneous improvement of mechanical and functional properties of Ti alloys is of
considerable significance for their diverse applications and service life. Incorporating …

Herein, we report a novel method for in-situ synthesis of nanometer-scaled TiC-reinforced
Ti6Al4V-matrix composites (TMCs) via laser powder bed fusion (LPBF). The formation …

TiC is widely used as an ideal reinforcement to strengthen titanium matrix composites
(TMCs). The morphology, size and distribution of TiC and the interfacial structure of TiC-Ti …

Strong interfacial bonding is the primarily crucial issue in titanium matrix composites (TMCs).
In this study, three-dimensional (3D) network structured Ti6Al4V (TC4) matrix TMCs with …

The expected excellent lubricant effect of graphene in metals during friction and wear is
rarely achieved because of the difficulty in synthesizing suitable interfaces. Particularly, the …