Lightweight Zr1.2V0.8NbTixAly high-entropy alloys with high tensile strength and ductility

Liang Wang; Songshen Chen; Bolun li; Tangqing Cao; Benpeng Wang; Lu Wang; Yang Ren; Jun Liang; Yunfei Xue

doi:10.1016/j.msea.2021.141234

Lightweight Zr_1.2V_0.8NbTi_xAl_y high-entropy alloys with high tensile strength and ductility

Liang Wang, Songshen Chen, Bolun li, Tangqing Cao, Benpeng Wang^*, Lu Wang, Yang Ren, Jun Liang^*, Yunfei Xue

^*Corresponding author for this work

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

56 Citations (Scopus)

Abstract

High-entropy alloys (HEAs) provide a new perspective to design novel lightweight alloys, whereas the complex precipitates in current lightweight HEAs (LHEAs) generally limit the mechanical properties. By controlling Ti and Al, the B2 and C14 Laves precipitates in Zr_1.2V_0.8NbTi_xAl_y (Ti_xAl_y) LHEA system were successfully suppressed, and a series of LHEAs with outstanding specific yield strength-ductility matching were designed. Especially, with the same deformability (tensile ductility over 25%), the specific yield strength of Ti3.6Al0.6 LHEA is over 40% higher than current developed HEAs. The excellent mechanical properties are attributed to be benefited by a combination of solid solution strengthening and chemical short-range order strengthening. Our results bring new insights into the phase stability and precipitation suppression of HEAs, which is constructive for the novel lightweight alloy development.

Original language	English
Article number	141234
Journal	Materials Science and Engineering: A
Volume	814
DOIs	https://doi.org/10.1016/j.msea.2021.141234
Publication status	Published - 13 May 2021

Keywords

Chemical short-range order
Lightweight high-entropy alloys
Mechanical properties
Phase stability
Solid-solution strengthening

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10.1016/j.msea.2021.141234

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@article{fccb63effc8c4813b6cfeb9e0bd8c3dd,

title = "Lightweight Zr1.2V0.8NbTixAly high-entropy alloys with high tensile strength and ductility",

abstract = "High-entropy alloys (HEAs) provide a new perspective to design novel lightweight alloys, whereas the complex precipitates in current lightweight HEAs (LHEAs) generally limit the mechanical properties. By controlling Ti and Al, the B2 and C14 Laves precipitates in Zr1.2V0.8NbTixAly (TixAly) LHEA system were successfully suppressed, and a series of LHEAs with outstanding specific yield strength-ductility matching were designed. Especially, with the same deformability (tensile ductility over 25%), the specific yield strength of Ti3.6Al0.6 LHEA is over 40% higher than current developed HEAs. The excellent mechanical properties are attributed to be benefited by a combination of solid solution strengthening and chemical short-range order strengthening. Our results bring new insights into the phase stability and precipitation suppression of HEAs, which is constructive for the novel lightweight alloy development.",

keywords = "Chemical short-range order, Lightweight high-entropy alloys, Mechanical properties, Phase stability, Solid-solution strengthening",

author = "Liang Wang and Songshen Chen and Bolun li and Tangqing Cao and Benpeng Wang and Lu Wang and Yang Ren and Jun Liang and Yunfei Xue",

note = "Publisher Copyright: {\textcopyright} 2021",

year = "2021",

month = may,

day = "13",

doi = "10.1016/j.msea.2021.141234",

language = "English",

volume = "814",

journal = "Materials Science and Engineering: A",

issn = "0921-5093",

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TY - JOUR

T1 - Lightweight Zr1.2V0.8NbTixAly high-entropy alloys with high tensile strength and ductility

AU - Wang, Liang

AU - Chen, Songshen

AU - li, Bolun

AU - Cao, Tangqing

AU - Wang, Benpeng

AU - Wang, Lu

AU - Ren, Yang

AU - Liang, Jun

AU - Xue, Yunfei

PY - 2021/5/13

Y1 - 2021/5/13

N2 - High-entropy alloys (HEAs) provide a new perspective to design novel lightweight alloys, whereas the complex precipitates in current lightweight HEAs (LHEAs) generally limit the mechanical properties. By controlling Ti and Al, the B2 and C14 Laves precipitates in Zr1.2V0.8NbTixAly (TixAly) LHEA system were successfully suppressed, and a series of LHEAs with outstanding specific yield strength-ductility matching were designed. Especially, with the same deformability (tensile ductility over 25%), the specific yield strength of Ti3.6Al0.6 LHEA is over 40% higher than current developed HEAs. The excellent mechanical properties are attributed to be benefited by a combination of solid solution strengthening and chemical short-range order strengthening. Our results bring new insights into the phase stability and precipitation suppression of HEAs, which is constructive for the novel lightweight alloy development.

AB - High-entropy alloys (HEAs) provide a new perspective to design novel lightweight alloys, whereas the complex precipitates in current lightweight HEAs (LHEAs) generally limit the mechanical properties. By controlling Ti and Al, the B2 and C14 Laves precipitates in Zr1.2V0.8NbTixAly (TixAly) LHEA system were successfully suppressed, and a series of LHEAs with outstanding specific yield strength-ductility matching were designed. Especially, with the same deformability (tensile ductility over 25%), the specific yield strength of Ti3.6Al0.6 LHEA is over 40% higher than current developed HEAs. The excellent mechanical properties are attributed to be benefited by a combination of solid solution strengthening and chemical short-range order strengthening. Our results bring new insights into the phase stability and precipitation suppression of HEAs, which is constructive for the novel lightweight alloy development.

KW - Chemical short-range order

KW - Lightweight high-entropy alloys

KW - Mechanical properties

KW - Phase stability

KW - Solid-solution strengthening

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U2 - 10.1016/j.msea.2021.141234

DO - 10.1016/j.msea.2021.141234

M3 - Article

AN - SCOPUS:85103795996

SN - 0921-5093

VL - 814

JO - Materials Science and Engineering: A

JF - Materials Science and Engineering: A

M1 - 141234

ER -

Lightweight Zr_1.2V_0.8NbTi_xAl_y high-entropy alloys with high tensile strength and ductility

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Keywords

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