Wear and friction are two unavoidable failures in mechanical systems with moving
components. Hence, the invention of new materials to curtail material losses and frictional …

Energy storage devices play an important role in our daily lives. As a kind of new materials,
high-entropy alloys (HEAs) avoid the traditional “base element” concept and display a …

Current advancements in technology enables the enhancement and refinement of alloys to
address the demands of expanding industrial applications. High Entropy Alloys (HEAs) are a …

During the past decade, refractory high-entropy alloys (RHEA) have attracted great attention
of scientists, engineers and scholars due to their excellent mechanical and functional …

One valid way to access the state of knowledge in a specific research area is by assessing
the availability of quality publications in that research area. In this work, we assess the level …

With the goal of developing lightweight Al-Ti-containing multicomponent alloys with
excellent mechanical strength, an Al–Ti–Cu–Co alloy with a phase-separated microstructure …

To develop high-hardness and high-strength lightweight high entropy alloys (LHEAs), a
series of Co x AlNbTiVCr alloys were designed. The phase constitution, distribution, and …

Abstract Multicomponent (Ti, Mo, Zr, Al, and Si) high-entropy alloys (HEAs) are prepared via
high energy ball milling technique and followed by spark plasma sintering (SPS) technique …

Lightweight high entropy alloys (LHEAs) with Laves phase enhancement are effective for
structural materials. The phase composition, distribution and crystal structure of Laves phase …

High entropy alloys (HEAs) are novel alloys with five or more primary elements in an
equiatomic or near-equiatomic proportionate ratio. The configuration entropy in HEAs tends …