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Fatigue Crack Growth Retardation After Single-Cycle Peak Overload in Ti-6 Al-4V Titanium Alloy

机译：Ti-6 al-4V钛合金单周期峰值过载后疲劳裂纹扩展延迟

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Fatigue crack growth after single-cycle peak overload was investigated in Ti-6Al-4V sheet. Strain hardening was determined not to be the major controlling mechanism retarding crack growth after peak overload, but instead, strain hardening slightly accelerated crack growth for the case when strain hardening was induced prior to crack initiation. Crack growth after peak overload was characterized by: (1) no effect after 20 percent overload (a 20 percent increase in maximum stress intensity); (2) crack arrest immediately following 70 and 100 percent overloads; (3) subsequent retarded crack growth rates after 70 and 100 percent overloads; and (4) retardation but no arrest following 50 percent overload. (Author)

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作者
Jones, R. E.;
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年度 1972
页码 p.1-53
总页数 53
原文格式 PDF
正文语种 eng
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关键词
Titanium alloys ; Crack propagation ; Fatigue(Mechanics) ; Sheets ; Strain hardening ; Aluminum alloys ; Vanadium alloys ; Reduction ; Loading(Mechanics);

机译：钛合金;裂纹扩展;疲劳（力学）;板材;应变硬化;铝合金;钒合金;还原;载荷（力学）;

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1. Effect of Overload on the Near-Threshold Fatigue Crack Growth Rate in a 2024-T3 Aluminum Alloy: I. Effect of the Character, the Magnitude, and the Sequence of Overload on the Fatigue Crack Growth Rate [J] . A. N. Savkin, R. Sunder, A. V. Andronik, Russian Metallurgy(Metally) . 2018,第11期

机译：过载对2024-T3铝合金近阈值疲劳裂纹生长速率的影响：I。特征，幅度和过载序列对疲劳裂纹增长的影响
2. Fatigue crack tip strain evolution and crack growth prediction under single overload in laser melting deposited Ti-6.5Al-3.5Mo-1.5Zr-0.3Si titanium alloy [J] . Wu Yanzeng, Bao Rui International Journal of Fatigue . 2018,第NOVa期

机译：激光熔融沉积Ti-6.5Al-3.5Mo-1.5Zr-0.3Si钛合金单过载下的疲劳裂纹尖端应变演化及裂纹扩展预测
3. Effect of low-temperature overload on fatigue crack growth retardation and prediction of post overload fatigue life [J] . Vaneshwar Kr. Sahu, J.K.S. Anil Kumar, J.R. Mohanty, Aerospace science and technology . 2014,第1期

机译：低温过载对疲劳裂纹扩展的影响及过载后疲劳寿命的预测
4. EFFECT OF OVERLOADING ON FATIGUE CRACK GROWTH RETARDATION IN A 7150 ALUMINUM ALLOY [C] . A. F. Simoes, M. Pereira, L. Godefroid International fatigue congress . 1999

机译：超负荷对7150铝合金疲劳裂纹扩展延缓的影响
5. Fatigue and Crack-Growth Behavior in a Titanium Alloy Under Constant-Amplitude and Spectrum Loading [D] . Kota, Kalyan Raj. 2018

机译：恒定振幅和频谱载荷下钛合金的疲劳和裂纹扩展行为
6. Fatigue Crack Growth Behaviour of Precipitate-Strengthened CuNi2Si Alloy under Different Loading Modes [O] . Bing Yang, Yifan Li, Yahang Qin, 2020

机译：不同载荷模式下沉淀强化CuNi2Si合金的疲劳裂纹扩展行为
7. Crack Growth and Acoustic Emission Behavior during Corrosion Fatigue Process of a High Strength Ti-6 Al-4V Alloy [O] . Shigenori Yuyama, Teruo Kishi, Yoshihiro Hisamatsu, 1984

机译：高强度Ti-6 Al-4V合金腐蚀疲劳过程中的裂纹生长和声学发射行为

Fatigue Crack Growth Retardation After Single-Cycle Peak Overload in Ti-6 Al-4V Titanium Alloy

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