Conventional alloys and superalloys are useful in engineering, automotive, aerospace and
medical applications. However, some are affected by high temperature oxidation while …

Compared to conventional alloys, multicomponent high-entropy alloys (HEAs) have
received considerable attention in recent years owing to their exceptional phase stability …

A novel equiatomic CrFeNiTiV high entropy alloy (HEA) was prepared by mechanical
alloying (MA) and following spark plasma sintering (SPS). Further, the effects of heat …

A machine learning technique leveraging artificial intelligence (AI) has emerged as a
promising tool for expediting the exploration and design of novel high entropy alloys (HEAs) …

The high-temperature surface oxidation behavior of high-entropy alloys (HEAs) with
compositions of AlCrCuFeMnWx (x= 0, 0.05, 0.1, and 0.5) was studied at 800° C as an …

In this work, hot compress tests were conducted at the strain rate range of 1–0.001 s− 1 and
the temperature range of 900–1050° C to unravel the hot deformation behavior of a powder …

This research article presents a comprehensive study on the prediction of thermal
conductivity (TC) as a primary outcome for an artificial neural network (ANN) model in the …

Indentation test is a powerful method of material characterization for measuring and
extracting mechanical properties at small scales with a long history and wide range of …

A machine learning (ML) integrated workflow was utilized to guide the design of Al-Ni co-
do** CoCrFe-based high-entropy alloys (HEAs) for improved corrosion resistance. ML …

Instrumented indentation combined with the classic Oliver–Pharr method has been widely
utilized to measure elastic modulus of various materials. However, the elastic modulus …