Tungsten‑copper (Wsingle bondCu) composites/pseudo alloys with excellent properties are
extremely desirable for applications as electrode materials, functional graded materials …

The W–Cu composites with nanosized grain boundaries and high effective density were
fabricated using a new fast isostatic hot pressing method. A significantly faster method was …

Due to their superior properties, high-entropy alloys (HEAs) are considered as novel
structural materials that can substitute conventional alloys. From the viewpoint of future …

In order to study the methanol steam reforming performance of the 3D-printed porous
support for hydrogen production, three dimensional (3D) printing technology was proposed …

Abstract Multi-material Directed Energy Deposition of new high-performance components is
limited by phase incompatibilities between metals and by the composition variations which …

In this study, a series of W/Cu multilayer composites were prepared by W and Cu foils
bonded at temperatures ranging from 700 to 900° C through field assisted sintering …

W–Cu refractory alloys are widely used in aerospace, aviation, electronics, power, and other
fields. However, because of its large melting point difference between alloy elements, the …

Abstract Tungsten-Copper (Wsingle bondCu) composites are promising materials for
electrical and thermal applications. However, their fabrication remains limited using …

The laser direct deposition, one kind of additive manufacturing technologies, was used to
produce W‒Cu composite material. To explain the formation of the deposited microstructure …

In this work, ultrafine-grained W-Cu composites without and with reinforcement of tungsten
fibers (W f) were prepared by successive processes of mechanical alloying, cold pressing …