Enhanced mechanical properties of a Ni–W–Al alloy in the as-cast state

Zhenchang Hou; Zhihua Nie; Zhichao Liu; Jun Gao; Fang Hao; Chengwen Tan; Yandong Wang

doi:10.1016/j.msea.2023.144686

Enhanced mechanical properties of a Ni–W–Al alloy in the as-cast state

Zhenchang Hou, Zhihua Nie^*, Zhichao Liu, Jun Gao, Fang Hao, Chengwen Tan, Yandong Wang

^*Corresponding author for this work

School of Material Science and Engineering

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

3 Citations (Scopus)

Abstract

An as-cast Ni₈₁W₁₀Al₉ (at.%) alloy with remarkable mechanical properties was developed by adjusting the alloying element with an appropriate enthalpy of mixing. A yield strength of ∼640 MPa was achieved for the as-cast Ni₈₁W₁₀Al₉ alloy, which is approximately three times larger than that of its Al-free counterpart. Extensive L1₂ phase nanoscale precipitations were generated in the Ni₈₁W₁₀Al₉ alloy, which provided strong strengthening by blocking dislocation sliding. The contribution of precipitation shearing to the strength is evaluated to be 366.4 MPa. The Taylor lattices as well as microbands were formed owing to the dislocation slipping, resulting in significant strain hardening in the plastic deformation region. The alloying method for strengthening the material in the as-cast state serves as an effective way to shorten the material preparation process.

Original language	English
Article number	144686
Journal	Materials Science and Engineering: A
Volume	866
DOIs	https://doi.org/10.1016/j.msea.2023.144686
Publication status	Published - 23 Feb 2023

Keywords

Alloy design
Enthalpy of mixing
Mechanical property
Nickel alloys
Precipitation

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10.1016/j.msea.2023.144686

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title = "Enhanced mechanical properties of a Ni–W–Al alloy in the as-cast state",

abstract = "An as-cast Ni81W10Al9 (at.%) alloy with remarkable mechanical properties was developed by adjusting the alloying element with an appropriate enthalpy of mixing. A yield strength of ∼640 MPa was achieved for the as-cast Ni81W10Al9 alloy, which is approximately three times larger than that of its Al-free counterpart. Extensive L12 phase nanoscale precipitations were generated in the Ni81W10Al9 alloy, which provided strong strengthening by blocking dislocation sliding. The contribution of precipitation shearing to the strength is evaluated to be 366.4 MPa. The Taylor lattices as well as microbands were formed owing to the dislocation slipping, resulting in significant strain hardening in the plastic deformation region. The alloying method for strengthening the material in the as-cast state serves as an effective way to shorten the material preparation process.",

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author = "Zhenchang Hou and Zhihua Nie and Zhichao Liu and Jun Gao and Fang Hao and Chengwen Tan and Yandong Wang",

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T1 - Enhanced mechanical properties of a Ni–W–Al alloy in the as-cast state

AU - Hou, Zhenchang

AU - Nie, Zhihua

AU - Liu, Zhichao

AU - Gao, Jun

AU - Hao, Fang

AU - Tan, Chengwen

AU - Wang, Yandong

PY - 2023/2/23

Y1 - 2023/2/23

N2 - An as-cast Ni81W10Al9 (at.%) alloy with remarkable mechanical properties was developed by adjusting the alloying element with an appropriate enthalpy of mixing. A yield strength of ∼640 MPa was achieved for the as-cast Ni81W10Al9 alloy, which is approximately three times larger than that of its Al-free counterpart. Extensive L12 phase nanoscale precipitations were generated in the Ni81W10Al9 alloy, which provided strong strengthening by blocking dislocation sliding. The contribution of precipitation shearing to the strength is evaluated to be 366.4 MPa. The Taylor lattices as well as microbands were formed owing to the dislocation slipping, resulting in significant strain hardening in the plastic deformation region. The alloying method for strengthening the material in the as-cast state serves as an effective way to shorten the material preparation process.

AB - An as-cast Ni81W10Al9 (at.%) alloy with remarkable mechanical properties was developed by adjusting the alloying element with an appropriate enthalpy of mixing. A yield strength of ∼640 MPa was achieved for the as-cast Ni81W10Al9 alloy, which is approximately three times larger than that of its Al-free counterpart. Extensive L12 phase nanoscale precipitations were generated in the Ni81W10Al9 alloy, which provided strong strengthening by blocking dislocation sliding. The contribution of precipitation shearing to the strength is evaluated to be 366.4 MPa. The Taylor lattices as well as microbands were formed owing to the dislocation slipping, resulting in significant strain hardening in the plastic deformation region. The alloying method for strengthening the material in the as-cast state serves as an effective way to shorten the material preparation process.

KW - Alloy design

KW - Enthalpy of mixing

KW - Mechanical property

KW - Nickel alloys

KW - Precipitation

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DO - 10.1016/j.msea.2023.144686

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JO - Materials Science and Engineering: A

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M1 - 144686

ER -

Enhanced mechanical properties of a Ni–W–Al alloy in the as-cast state

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Keywords

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