In recent years, high-entropy alloys (HEAs) have become prominent metallic materials due
to their unique design strategies and excellent mechanical properties. The HEAs-inherent …

Nearly three decades since the discovery of high entropy alloys (HEAs), it has greeted a
broad interest in the field of materials research as a better alternative to conventional alloy …

Nanoparticle strengthening provides a crucial basis for developing high-performance
structural materials with potentially superb mechanical properties for structural applications …

The review summarizes some achievements of materials scientists in designing high
entropy alloys (HEAs) and developing production routs for their industrial implementation, as …

Diffusion in the traditional single-crystalline solids is usually dynamically homogeneous
characterized by a single-value or two characteristic activation energies. However, such a …

High entropy alloys (HEAs) represent a class of multicomponent alloys that have garnered
significant attention within materials community over the past two decades, largely due to …

Complex component alloys (CCAs) consisting of multiple principal elements potentially
encompass superior mechanical properties and good corrosion resistance. Eutectic high …

To validate the 'sluggish diffusion'in high-entropy alloys, interdiffusion coefficients of
individual elements and tracer diffusion coefficient of Ni were experimentally determined in …

Pre-alloyed and blended powders are frequently used feedstock options for additive
manufacturing; however, nanoscale compositional inhomogeneities induced by blended …

Transition metal high-entropy alloys (TM HEAs) are currently considered as promising
structural materials for high-temperature (HT) applications. However, their HT oxidation is a …