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Effect of Stress-Strain Behavior on Low-Cycle Fatigue of Alpha-Beta Titanium Alloys

机译：应力 - 应变行为对α-β钛合金低周疲劳的影响

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In earlier NRL work, Ti-6Al-4V in four levels of interstitial oxygen content and a single Ti-8Al-1Mo-1V alloy plate were heat treated to alter grain size and/or microstructural character; the effect on fatigue crack propagation rate was measured. In this work, small tensile specimens of these materials are subjected to slow strain-controlled cyclic deformation leading to rupture in the 5-500 cycle range. Indication of crack initiation as well as rupture life are compared relative to the plastic excursion strain. On this basis, effects of grain size and oxygen content are not clearly discriminated. Yet, some of the materials exhibit markedly performance. This improvement seems to be related to a characteristic evolution in the shape of the cyclic stress-strain curve. Here, relative to a full convex hysteresis loop of early cycles, the later cycles exhibit a reduced stress level, or cyclic softening, in the first half of the excursion, followed by a resurgence of strength to initial stress levels in the latter portion. The enhanced strain hardening rate enabling this terminal strength restoration is thought to stabilize the deformation, reducing the amount of stress-relaxation-induced tensile strain. Taking such strain as an increment of damage in a cumulative cyclic creep strain criterion provides a correlation between the evolving shape of the cyclic stress-strain curve and the low cycle fatigue endurance. Results indicate the absolute increase in the terminal plastic strain hardening rate to be a constant of a material, independent of the cyclic strain excursion. (Author)

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作者
Krafft, J. M.;
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年度 1980
页码 p.1-30
总页数 30
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Titanium alloys; Stress strain relations; Cyclic tests; Fatigue tests(Mechanics); Strain hardening; Creep strength; Interactions; Crack propagation; Cracking(Fracturing); Rates; Life expectancy; Rupture; Reduction; Microstructure; Tensile properties;

机译：钛合金;应力应变关系;循环试验;疲劳试验（力学）;应变硬化;蠕变强度;相互作用;裂纹扩展;裂纹（压裂）;速率;预期寿命;断裂;还原;显微组织;拉伸性能;

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1. Cyclic Deformation Behavior and Low-Cycle Fatigue Failure Behavior of TA16 Titanium Alloy [J] . Qianhua Kan, Guozheng Kang, Wenyi Yan Advanced Science Letters . 2012,第Null期

机译：TA16钛合金的循环变形行为和低循环疲劳破坏行为
2. Low-cycle fatigue behavior and property of TA15 titanium alloy with tri-modal microstructure [J] . P.F. Gao, Z.N. Lei, Y.K. Li, Materials Science and Engineering . 2018,第OCTa24期

机译：具有三峰组织的TA15钛合金的低周疲劳行为和性能
3. Effect of size of alpha phases on cyclic deformation and fatigue crack initiation during fatigue of an alpha-beta titanium alloy [J] . Qiaoyan Sun, Changsheng Tan, Lin Xiao, MATEC Web of Conferences . 2018,第1期

机译：α相尺寸对α-β钛合金疲劳过程中循环变形和疲劳裂纹萌生的影响
4. Real-time monitoring of acoustic linear and nonlinear behavior of titanium alloys during low-cycle fatigue and high-cycle fatigue [C] . Jerome Frouin, Univ. of Dayton, Dayton, Conference on nondestructive evaluation of aging materials and composites . 2000

机译：实时监测钛合金在低周疲劳和高周疲劳中的声线性和非线性行为
5. The low-cycle fatigue behavior of an alpha-two + beta titanium aluminide alloy. [D] . Stevens, Katherine Anne. 2002

机译：α-2+β铝化钛合金的低周疲劳行为。
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Effect of Stress-Strain Behavior on Low-Cycle Fatigue of Alpha-Beta Titanium Alloys

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