Inspired by the ultrastrong and tough nacre structure, in this study, we prepared in-situ
titanium (Ti) matrix composites (TMCs) containing laminated Ti, planarly aligned TiC and …

Graphene nanoplates (GNP) have been found to significantly enhance the strength of
titanium and its alloys due to their unique structure and physical properties. However, the …

Synergistic improvement of strength and ductility is challenging in the engineering
applications of titanium matrix composites (TMCs). Herein, we fabricated the TC4 …

Interfacial bond and structure as key points significant restrict the mechanical properties of
carbon nanotubes (CNTs) reinforced aluminum matrix composites (CNTs/Al composites). In …

Abstract Al–B 4 C Metal matrix composites (MMCs) possess several attractive properties
such as high hardness, superior resistance to impact and wear, excellent resistance to …

In this study, we report a novel approach to enhance strength and stiffness in titanium alloys
while maintaining ductility. We prepared a two-scale laminated structured titanium matrix …

In this study, low energy ball milling and spark plasma sintering techniques prepared the in-
situ synthesized Ti 5 Si 3 reinforced Ti-6Al-4V (TC4) matrix composites and then rolled them …

Architecting tightly bonded interface microstructure is the principal guarantee for increased
mechanical properties of titanium matrix composites (TMCs). Adopting an effective …

Multi-walled carbon nanotubes (MWCNTs) are one of the ideal reinforcements for metal
matrix composites (MMCs), however, it faced a big challenge regarding their mechanical …

In-situ formed interfacial carbides always sacrifice the structure integrity of reinforcement in
nanocarbon/metal composites. Herein, leaf-like carbon nanotube-graphene nanoribbon …