Thermal Stability and Mechanical Properties of Low-Activation Single-Phase Ti-V-Ta Medium Entropy Alloys

Nannan Jia; Yunkai Li; Xuan Liu; Yi Zheng; Benpeng Wang; Junsheng Wang; Yunfei Xue; Ke Jin

doi:10.1007/s11837-019-03713-3

Thermal Stability and Mechanical Properties of Low-Activation Single-Phase Ti-V-Ta Medium Entropy Alloys

Nannan Jia, Yunkai Li, Xuan Liu, Yi Zheng, Benpeng Wang, Junsheng Wang, Yunfei Xue, Ke Jin^*

^*Corresponding author for this work

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

41 Citations (Scopus)

Abstract

A series of titanium-vanadium-tantalum (Ti-V-Ta) medium entropy alloys have been fabricated with all of them exhibiting a single-phase body-centered cubic structure in the homogenized states, and their thermal stability as well as their mechanical properties have been investigated. Among the four studied alloys, Ti₂₇V₃₃Ta₄₀, Ti₃₃V₃₃Ta₃₄, Ti₄₀V₃₃Ta₂₇, and Ti₄₅V₂₀Ta₃₅, the equi-atomic Ti₃₃V₃₃Ta₃₄ has shown the highest thermal stability, without secondary phases formed after annealed at 400–700°C for 48 h, while decompositions have been observed in the other three alloys. All the four alloys have exhibited a good compression strength of 394–527 MPa at 800°C, while, except Ti₂₇V₃₃Ta₄₀, maintaining an acceptable tensile ductility with fracture strains of 7.6–13% at room temperature. Furthermore, the low neutron activity of the Ti-V-Ta alloys grant them application potentials in nuclear engineering.

Original language	English
Pages (from-to)	3490-3498
Number of pages	9
Journal	JOM
Volume	71
Issue number	10
DOIs	https://doi.org/10.1007/s11837-019-03713-3
Publication status	Published - 1 Oct 2019

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title = "Thermal Stability and Mechanical Properties of Low-Activation Single-Phase Ti-V-Ta Medium Entropy Alloys",

abstract = "A series of titanium-vanadium-tantalum (Ti-V-Ta) medium entropy alloys have been fabricated with all of them exhibiting a single-phase body-centered cubic structure in the homogenized states, and their thermal stability as well as their mechanical properties have been investigated. Among the four studied alloys, Ti27V33Ta40, Ti33V33Ta34, Ti40V33Ta27, and Ti45V20Ta35, the equi-atomic Ti33V33Ta34 has shown the highest thermal stability, without secondary phases formed after annealed at 400–700°C for 48 h, while decompositions have been observed in the other three alloys. All the four alloys have exhibited a good compression strength of 394–527 MPa at 800°C, while, except Ti27V33Ta40, maintaining an acceptable tensile ductility with fracture strains of 7.6–13% at room temperature. Furthermore, the low neutron activity of the Ti-V-Ta alloys grant them application potentials in nuclear engineering.",

author = "Nannan Jia and Yunkai Li and Xuan Liu and Yi Zheng and Benpeng Wang and Junsheng Wang and Yunfei Xue and Ke Jin",

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T1 - Thermal Stability and Mechanical Properties of Low-Activation Single-Phase Ti-V-Ta Medium Entropy Alloys

AU - Jia, Nannan

AU - Li, Yunkai

AU - Liu, Xuan

AU - Zheng, Yi

AU - Wang, Benpeng

AU - Wang, Junsheng

AU - Xue, Yunfei

AU - Jin, Ke

PY - 2019/10/1

Y1 - 2019/10/1

N2 - A series of titanium-vanadium-tantalum (Ti-V-Ta) medium entropy alloys have been fabricated with all of them exhibiting a single-phase body-centered cubic structure in the homogenized states, and their thermal stability as well as their mechanical properties have been investigated. Among the four studied alloys, Ti27V33Ta40, Ti33V33Ta34, Ti40V33Ta27, and Ti45V20Ta35, the equi-atomic Ti33V33Ta34 has shown the highest thermal stability, without secondary phases formed after annealed at 400–700°C for 48 h, while decompositions have been observed in the other three alloys. All the four alloys have exhibited a good compression strength of 394–527 MPa at 800°C, while, except Ti27V33Ta40, maintaining an acceptable tensile ductility with fracture strains of 7.6–13% at room temperature. Furthermore, the low neutron activity of the Ti-V-Ta alloys grant them application potentials in nuclear engineering.

AB - A series of titanium-vanadium-tantalum (Ti-V-Ta) medium entropy alloys have been fabricated with all of them exhibiting a single-phase body-centered cubic structure in the homogenized states, and their thermal stability as well as their mechanical properties have been investigated. Among the four studied alloys, Ti27V33Ta40, Ti33V33Ta34, Ti40V33Ta27, and Ti45V20Ta35, the equi-atomic Ti33V33Ta34 has shown the highest thermal stability, without secondary phases formed after annealed at 400–700°C for 48 h, while decompositions have been observed in the other three alloys. All the four alloys have exhibited a good compression strength of 394–527 MPa at 800°C, while, except Ti27V33Ta40, maintaining an acceptable tensile ductility with fracture strains of 7.6–13% at room temperature. Furthermore, the low neutron activity of the Ti-V-Ta alloys grant them application potentials in nuclear engineering.

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U2 - 10.1007/s11837-019-03713-3

DO - 10.1007/s11837-019-03713-3

M3 - Article

AN - SCOPUS:85070228389

SN - 1047-4838

VL - 71

SP - 3490

EP - 3498

JO - JOM

JF - JOM

IS - 10

ER -

Thermal Stability and Mechanical Properties of Low-Activation Single-Phase Ti-V-Ta Medium Entropy Alloys

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