Litcius/Paper detail

Superior strength–ductility combination in Al alloys via dislocation gradient structure

Feng Wang, Yue Li, Xinren Chen, Huan Zhao, Khurram Yaqoob, Yong Du, Zhangwei Wang, Min Song

2022Materials Research Letters40 citationsDOIOpen Access PDF

Abstract

The precipitation hardening is widely applied to strengthen Al alloys. Here, we report an alternative way to achieve high-strength Al alloys via forming the dislocation gradient through pre-torsion. Remarkably, the gradient Al alloys exhibit a sharp increase in ultimate tensile strength up to 605 MPa yet nearly without reducing the uniform elongation, thereby outperforming their counterparts. The superior strength–ductility combination is ascribed to the excellent strengthening and strain hardening effects stemming from the substantial hetero-deformation-induced hardening in the coarse-grained gradient Al alloys. Our study thus paves a new way to improve the mechanical properties of Al alloys.

Topics & Concepts

Materials scienceUltimate tensile strengthElongationStrain hardening exponentHardening (computing)DislocationDuctility (Earth science)Torsion (gastropod)Precipitation hardeningStrengthening mechanisms of materialsWork hardeningComposite materialMetallurgyAlloyMicrostructureCreepMedicineLayer (electronics)SurgeryMicrostructure and mechanical propertiesAluminum Alloys Composites PropertiesMetal and Thin Film Mechanics
Superior strength–ductility combination in Al alloys via dislocation gradient structure | Litcius