High-entropy alloys (HEAs) are a family of novel multi-principal alloys containing> 4
principal elements in equimolar ratios or nearly-equimolar ratios. The unique multiple …

Entropy-related phase stabilization can allow compositionally complex solid solutions of
multiple principal elements. The massive mixing approach was originally introduced for …

Calls to minimize greenhouse gas emissions and demands for higher energy efficiency
continue to drive research into alternative cooling and refrigeration technologies. The caloric …

In this letter, we briefly summarize experimental and theoretical findings of formation and
characterization of short-range orderings (SROs) as well as their effects on the deformation …

Many established, but also potential future applications of NiTi-based shape memory alloys
(SMA) in biomedical devices and solid-state refrigeration require long fatigue life with 107 …

Organic martensitic compounds are an emerging type of smart material with intriguing
physical properties including thermosalient effect, ferroelasticity, and shape memory effect …

In-depth knowledge of the coupling between grain refinement and the transformation-
induced plasticity (TRIP) effect in metastable alloys is a viable approach for the improvement …

Abstract Machine learning (ML) is shown to predict new alloys and their performances in a
high dimensional, multiple-target-property design space that considers chemistry, multi-step …

Shape memory alloys recover their original shape after deformation, making them useful for
a variety of specialized applications. Superelastic behavior begins at the critical stress …

Intermetallic materials are bestowed by diverse ordered superlattice structures together with
many unusual properties. In particular, the advent of chemically complex intermetallic alloys …