Creep anisotropy dominated by orientation rotation in Ni-based single crystal superalloys at 750 °C/750 MPa

Pengfei Qu; Wenchao Yang; Chen Liu; Jiarun Qin; Qiang Wang; Jun Zhang; Lin Liu

doi:10.1016/j.jmst.2023.10.055

Creep anisotropy dominated by orientation rotation in Ni-based single crystal superalloys at 750 °C/750 MPa

Pengfei Qu, Wenchao Yang, Chen Liu, Jiarun Qin, Qiang Wang, Jun Zhang, Lin Liu

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

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

17 Scopus citations

Abstract

The creep anisotropy of Ni-based single crystal superalloys was studied at 750 °C/750 MPa. Transmission electron microscopy (TEM) observations showed that stacking faults and micro-twins were the typical dislocation configurations, which all originated from the activity of {111} 〈112〉 slip systems. Then, the orientation rotation caused by the activity of the main {111} 〈112〉 slip system would accelerate the specimen fracturing in shear fracture mode. Furthermore, the orientation rotation would dominate the creep anisotropy. The orientation rotation would occur during the entire creep process, the greater the degree of rotation, the more severe the asynchrony of rotation, which would result in nonuniform deformation and local stress concentration, and exacerbate the failure of the specimen.

Original language	English
Pages (from-to)	91-103
Number of pages	13
Journal	Journal of Materials Science and Technology
Volume	186
DOIs	https://doi.org/10.1016/j.jmst.2023.10.055
State	Published - 1 Jul 2024

Keywords

Anisotropy
Creep
Ni-based single crystal superalloys
Orientation rotation

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title = "Creep anisotropy dominated by orientation rotation in Ni-based single crystal superalloys at 750 °C/750 MPa",

abstract = "The creep anisotropy of Ni-based single crystal superalloys was studied at 750 °C/750 MPa. Transmission electron microscopy (TEM) observations showed that stacking faults and micro-twins were the typical dislocation configurations, which all originated from the activity of {111} 〈112〉 slip systems. Then, the orientation rotation caused by the activity of the main {111} 〈112〉 slip system would accelerate the specimen fracturing in shear fracture mode. Furthermore, the orientation rotation would dominate the creep anisotropy. The orientation rotation would occur during the entire creep process, the greater the degree of rotation, the more severe the asynchrony of rotation, which would result in nonuniform deformation and local stress concentration, and exacerbate the failure of the specimen.",

keywords = "Anisotropy, Creep, Ni-based single crystal superalloys, Orientation rotation",

author = "Pengfei Qu and Wenchao Yang and Chen Liu and Jiarun Qin and Qiang Wang and Jun Zhang and Lin Liu",

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doi = "10.1016/j.jmst.2023.10.055",

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T1 - Creep anisotropy dominated by orientation rotation in Ni-based single crystal superalloys at 750 °C/750 MPa

AU - Qu, Pengfei

AU - Yang, Wenchao

AU - Liu, Chen

AU - Qin, Jiarun

AU - Wang, Qiang

AU - Zhang, Jun

AU - Liu, Lin

PY - 2024/7/1

Y1 - 2024/7/1

N2 - The creep anisotropy of Ni-based single crystal superalloys was studied at 750 °C/750 MPa. Transmission electron microscopy (TEM) observations showed that stacking faults and micro-twins were the typical dislocation configurations, which all originated from the activity of {111} 〈112〉 slip systems. Then, the orientation rotation caused by the activity of the main {111} 〈112〉 slip system would accelerate the specimen fracturing in shear fracture mode. Furthermore, the orientation rotation would dominate the creep anisotropy. The orientation rotation would occur during the entire creep process, the greater the degree of rotation, the more severe the asynchrony of rotation, which would result in nonuniform deformation and local stress concentration, and exacerbate the failure of the specimen.

AB - The creep anisotropy of Ni-based single crystal superalloys was studied at 750 °C/750 MPa. Transmission electron microscopy (TEM) observations showed that stacking faults and micro-twins were the typical dislocation configurations, which all originated from the activity of {111} 〈112〉 slip systems. Then, the orientation rotation caused by the activity of the main {111} 〈112〉 slip system would accelerate the specimen fracturing in shear fracture mode. Furthermore, the orientation rotation would dominate the creep anisotropy. The orientation rotation would occur during the entire creep process, the greater the degree of rotation, the more severe the asynchrony of rotation, which would result in nonuniform deformation and local stress concentration, and exacerbate the failure of the specimen.

KW - Anisotropy

KW - Creep

KW - Ni-based single crystal superalloys

KW - Orientation rotation

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U2 - 10.1016/j.jmst.2023.10.055

DO - 10.1016/j.jmst.2023.10.055

M3 - 文章

AN - SCOPUS:85182504195

SN - 1005-0302

VL - 186

SP - 91

EP - 103

JO - Journal of Materials Science and Technology

JF - Journal of Materials Science and Technology

ER -

Creep anisotropy dominated by orientation rotation in Ni-based single crystal superalloys at 750 °C/750 MPa

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Keywords

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