Evolution of surface integrity and fatigue properties after milling, polishing, and shot peening of TC17 alloy blades

Liang Tan; Changfeng Yao; Dinghua Zhang; Junxue Ren; Zheng Zhou; Jiyin Zhang

doi:10.1016/j.ijfatigue.2020.105630

Evolution of surface integrity and fatigue properties after milling, polishing, and shot peening of TC17 alloy blades

Liang Tan, Changfeng Yao, Dinghua Zhang, Junxue Ren, Zheng Zhou, Jiyin Zhang

机电学院

Northwestern Polytechnical University Xian

科研成果: 期刊稿件 › 文章 › 同行评审

73 引用（Scopus）

摘要

The surface integrity and fatigue properties of TC17 alloy blades under integrated manufacturing processes are investigated. The R_a values of milling–polishing (MP)-processed and milling–polishing–shot peening–vibration polishing (MPSV)-processed blades are less than 0.4 µm. MPSV produces a strengthened layer about 100 µm and a gradient microstructure. The modal analysis results obtained from finite element calculation corresponds well with the values measured experimentally. The fatigue lives of the MPSV-processed blades are increased by approximately 119.5% compared with the MP-processed blades. The fatigue fracture morphology indicates that fatigue cracks are initiated on the leading edge surface regardless of the processes employed.

源语言	英语
文章编号	105630
期刊	International Journal of Fatigue
卷	136
DOI	https://doi.org/10.1016/j.ijfatigue.2020.105630
出版状态	已出版 - 7月 2020

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title = "Evolution of surface integrity and fatigue properties after milling, polishing, and shot peening of TC17 alloy blades",

abstract = "The surface integrity and fatigue properties of TC17 alloy blades under integrated manufacturing processes are investigated. The Ra values of milling–polishing (MP)-processed and milling–polishing–shot peening–vibration polishing (MPSV)-processed blades are less than 0.4 µm. MPSV produces a strengthened layer about 100 µm and a gradient microstructure. The modal analysis results obtained from finite element calculation corresponds well with the values measured experimentally. The fatigue lives of the MPSV-processed blades are increased by approximately 119.5% compared with the MP-processed blades. The fatigue fracture morphology indicates that fatigue cracks are initiated on the leading edge surface regardless of the processes employed.",

keywords = "Fatigue fracture, Fatigue life, Shot peening, Surface integrity, TC17 alloy blades",

author = "Liang Tan and Changfeng Yao and Dinghua Zhang and Junxue Ren and Zheng Zhou and Jiyin Zhang",

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year = "2020",

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T1 - Evolution of surface integrity and fatigue properties after milling, polishing, and shot peening of TC17 alloy blades

AU - Tan, Liang

AU - Yao, Changfeng

AU - Zhang, Dinghua

AU - Ren, Junxue

AU - Zhou, Zheng

AU - Zhang, Jiyin

PY - 2020/7

Y1 - 2020/7

N2 - The surface integrity and fatigue properties of TC17 alloy blades under integrated manufacturing processes are investigated. The Ra values of milling–polishing (MP)-processed and milling–polishing–shot peening–vibration polishing (MPSV)-processed blades are less than 0.4 µm. MPSV produces a strengthened layer about 100 µm and a gradient microstructure. The modal analysis results obtained from finite element calculation corresponds well with the values measured experimentally. The fatigue lives of the MPSV-processed blades are increased by approximately 119.5% compared with the MP-processed blades. The fatigue fracture morphology indicates that fatigue cracks are initiated on the leading edge surface regardless of the processes employed.

AB - The surface integrity and fatigue properties of TC17 alloy blades under integrated manufacturing processes are investigated. The Ra values of milling–polishing (MP)-processed and milling–polishing–shot peening–vibration polishing (MPSV)-processed blades are less than 0.4 µm. MPSV produces a strengthened layer about 100 µm and a gradient microstructure. The modal analysis results obtained from finite element calculation corresponds well with the values measured experimentally. The fatigue lives of the MPSV-processed blades are increased by approximately 119.5% compared with the MP-processed blades. The fatigue fracture morphology indicates that fatigue cracks are initiated on the leading edge surface regardless of the processes employed.

KW - Fatigue fracture

KW - Fatigue life

KW - Shot peening

KW - Surface integrity

KW - TC17 alloy blades

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JO - International Journal of Fatigue

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Evolution of surface integrity and fatigue properties after milling, polishing, and shot peening of TC17 alloy blades

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