Litcius/Paper detail

Challenges and opportunities in additive manufacturing of high entropy alloys

Mohammad Taghian, Ali Pilehvar Meibody, Abdollah Saboori, Luca Iuliano

2025Journal of Alloys and Compounds30 citationsDOIOpen Access PDF

Abstract

High entropy alloys (HEAs) are a class of multi-principal element alloys that exhibit promising properties for structural and functional applications. Additive manufacturing (AM) techniques provide a pathway for fabricating HEAs with complex geometries and tailored compositions. This paper reviews the recent progress in developing HEAs using laser-based (directed energy deposition, laser powder bed fusion) and electron beam-based (electron beam powder bed fusion) AM processes. A wide range of HEAs, including CoCrFeMnNi, Al x CoCrFeNi, refractory HEAs, and interstitial-solute hardened HEAs, have been fabricated through AM of gas/water atomized powders or elemental powder blends. Processing parameters such as laser power, scan speed, and hatch distance significantly influence the microstructure, phases, and defects in laser-based AM-printed HEAs. Rapid solidification during AM suppresses phase segregation and elemental partitioning, leading to refined microstructures with enhanced mechanical properties compared to cast counterparts. Post-treatments, including annealing, hot isostatic pressing , and laser shock peening, reduce residual stresses and porosities in AM-printed HEAs. Future opportunities lie in developing compositionally graded, dual-phase, and composite HEAs through AM to optimize properties further. Standardized models are needed to predict optimized AM parameters for defect-free printing of new HEAs.

Topics & Concepts

High entropy alloysMaterials scienceMetallurgyNanotechnologyAlloyHigh Entropy Alloys StudiesAdditive Manufacturing Materials and ProcessesHigh-Temperature Coating Behaviors
Challenges and opportunities in additive manufacturing of high entropy alloys | Litcius