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Near‐linear elastic deformation behavior of a novel Zr‐Ti‐Nb‐Sn alloy with multi‐phase microstructures of β, α″ and α′ phases

Wen Ma, Hao Huang, Wang Ding, Shun Guo, Haixia Liu, Xiaonong Cheng

2023Rare Metals22 citationsDOI

Abstract

Abstract In this work, a multi‐phase Zr‐30Ti‐7Nb‐4Sn alloy with large near‐linear elastic deformability was prepared by the solution treatment plus pre‐straining (STP) treatment, and the underlying mechanism accountable for the near‐linear elastic deformation was systematically clarified. It was found that the Zr‐30Ti‐7Nb‐4Sn alloy was composed of β, α″ and α′ phases, and numerous dislocations were formed in the alloy specimen after STP treatment. With the retarding effect of high‐density dislocations, the stress‐induced martensitic (SIM) transformation from β to α″ phases took place homogeneously and continuously during loading, in conjunction with the occurrence of elastic deformation of β, α″ and α′ phases. Under the entire tensile procedure, no observable phase transformation occurred between α′ martensite and β phase. Consequently, the near‐linear elastic deformation capability in STP Zr‐30Ti‐7Nb‐4Sn alloy is mainly ascribed to the coupling actions of consecutive β → α″ SIM transformation and intrinsic elastic deformation of β, α″ and α′ phases. These experimental results provide a basis for designing and developing novel multi‐phase Zr‐based alloys that possess large near‐linear deformability.

Topics & Concepts

Materials scienceAlloyDeformation (meteorology)MartensitePhase (matter)Linear elasticityWork (physics)MicrostructureDiffusionless transformationCoupling (piping)Composite materialUltimate tensile strengthStress (linguistics)ThermodynamicsFinite element methodPhysicsLinguisticsPhilosophyQuantum mechanicsTitanium Alloys Microstructure and PropertiesNuclear Materials and PropertiesIntermetallics and Advanced Alloy Properties
Near‐linear elastic deformation behavior of a novel Zr‐Ti‐Nb‐Sn alloy with multi‐phase microstructures of β, α″ and α′ phases | Litcius