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Enhancing the strength, ductility and strain hardening of B2-strengthened refractory multi-principal-element alloys by suppressing dislocation glide channels

Jingyu Pang, Yitong Yang, Chunjin Chen, Long Zhang, Aimin Wang, Shijian Zheng, Qing Wang, Hongwei Zhang

2024Materials Research Letters18 citationsDOIOpen Access PDF

Abstract

Refractory multi-principal-element alloys (RMPEAs) typically exhibit low strain hardening capacity and may even experience strain softening, which poses a risk to the structural integrity of materials. We first established that the strain softening observed in Ti1.5Al0.5ZrNb RMPEA is due to the planar slip of dislocations and the formation of narrow <111>{110} orientation dislocation channels (DCs). Subsequently, we introduced nanoscale ω-AlZr2 precipitates that are diffusely distributed around grain boundaries (GBs), which significantly enhance the strength and strain hardening capacity of the RMPEA by inhibiting the formation of narrow DCs. This approach is highly versatile and can effectively improve deformation stability.

Topics & Concepts

Materials scienceDuctility (Earth science)DislocationStrain hardening exponentHardening (computing)Refractory metalsPlasticityRefractory (planetary science)Strain (injury)MetallurgyComposite materialCreepMedicineLayer (electronics)Internal medicineHigh Entropy Alloys StudiesAdvanced materials and compositesMetal and Thin Film Mechanics
Enhancing the strength, ductility and strain hardening of B2-strengthened refractory multi-principal-element alloys by suppressing dislocation glide channels | Litcius