CNT/Cu composite was fabricated by using copper powders within small amounts of
titanium nanometer powder via balling milling and followed by spark plasma sintering …

The formation of interfacial carbides by in-situ reaction is a valid way to improve the
interfacial bonding strength and mechanical performance of metal matrix composites. In this …

Abstract CNTs/Cu-Ti composites were fabricated successfully by spray pyrolysis, low energy
ball milling and subsequent hot pressing (HP). Microstructure and mechanical properties of …

Abstract Carbon Nanotubes (CNTs)/Cu-Ti composites with strong interfacial bonding were
successfully prepared by Molecular Level Mixing (MLM) combined with Spark Plasma …

In this work, TiC–Cu composites containing 20 and 30 vol% of nano-sized titanium carbide
(TiC) particles were prepared by powder metallurgy using copper powders with micrometer …

A flake powder metallurgy route consists of a slurry based dispersion process and a short
time ball milling process was proposed to fabricate strong and ductile CNT/Al composites …

In order to uniformly disperse the ceramic reinforcements synthesized in-situ in the copper
matrix composites, this study used Carbon Polymer Dot (CPD) as the carbon source and Cu …

Mono-dispersed and homogeneous carbon nanotube (CNT)/copper (Cu) composite
powders were fabricated by spraying pyrolysis (SP) method successfully. Subsequently …

The inevitable native oxide layer is a critical issue to achieve high mechanical performance
of CNT/Al-alloy composites, especially prepared by powder metallurgy. Here, an easy …

Abstract The nano-TiC/Al composites with different alloying elements (Zn, Cu and Mg) were
successfully prepared via a one-step method of reaction and densification in the reaction …