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Microstructural influences on fatigue crack growth in the near alpha titanium alloy timetal 834

机译：微观结构对近α钛合金timetal 834中疲劳裂纹扩展的影响

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Fatigue crack growth rates were measured employing a corner crack testpiece under laboratory conditions in the near #alpha# titanium alloy Timetal 834. The alloy was heat treated to produce two different microstructures: a bi-modal form typical of aerospace applications containing approximately 15percent primary #alpha# in a transformed matrix and a coarse grained, fully transformed Widmanstatten microstructure. Both microstructures demonstrate a significant sensitivity to R value. Distinct growth rate regimes relating to short and long crack behaviour were defined in both structures, however, short crack phenomena were most prevalent in the transformed microstructure. Facet formation and transgranular crack growth was found to be prevalent in the earliest stages with a cyclic striation type mechanism dominating the long crack regime. Implications of these findings for defect tolerant component lifing are discussed.

机译：在实验室条件下，在接近＃alpha＃的钛合金Timetal 834中，使用角部裂纹测试仪测量了疲劳裂纹的扩展速率。对该合金进行了热处理，以产生两种不同的微观结构：航空应用中典型的双峰形式，其主要成分约为15％。转换后的矩阵中的alpha＃和粗粒，完全转换的Widmanstatten微结构。两种微观结构均显示出对R值的显着敏感性。在两种结构中都定义了与短裂纹和长裂纹行为有关的不同的生长速率机制，但是，短裂纹现象在转变的微观结构中最为普遍。在最早的阶段发现小面的形成和跨晶裂纹的扩展是普遍存在的，周期性的条纹型机制主导了长裂纹的发展。讨论了这些发现对容错组件生活的影响。

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《》|1999年|p.179-186|共8页
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M. R. Bache;
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中图分类一般工业技术;
关键词
Timetal 834; Microstructure; Load ratio; Facets; Striation growth; corner cracks;

机译：时计834;微观结构负载比;方面;条纹增长;角裂缝;

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1. A comparative assessment of crack closure mechanisms in Timetal 834 near alpha titanium alloy under isothermal and thermomechanical fatigue loading [J] . Prasad Kartik, Kumar Vikas, Rao K. Bhanu Sankara, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2016,第Pta1期

机译：等温和热机械疲劳载荷下Timetal 834接近α钛合金的裂纹闭合机制的比较评估
2. Fatigue crack growth behaviour of a near a titanium alloy Timetal 834 at 450 °C and 600 °C [J] . Kartik Prasad, S. Abhaya, G. Amarendra Engineering Fracture Mechanics . 2013,第Null期

机译：钛合金Timetal 834在450°C和600°C下的疲劳裂纹扩展行为
3. Influence of sharp microstructural gradients on the fatigue crack growth resistance of alpha + beta and near-a titanium alloys [J] . M. BENEDETTI, J. HEIDEMANN, J. O. PETERS Fatigue & Fracture of Engineering Materials & Structures . 2005,第10期

机译：尖锐的微观组织梯度对α+β和近a钛合金的抗疲劳裂纹扩展性的影响
4. Microstructural influences on fatigue crack growth in the near alpha titanium alloy timetal 834 [C] . M.R.Bache Third Engineering Foundation International Conference, December 6-11, 1998 Oahu, Hawaii . 1999

机译：微观结构对近α钛合金timetal 834中疲劳裂纹扩展的影响
5. Fatigue crack growth in unidirectional and cross-ply SCS-6/Timetal(RTM)21S titanium matrix composite [D] . Herrmann, Douglas Jacob 1994

机译：单向和交叉SCS-6 / Timetal（RTM）21S钛基复合材料的疲劳裂纹扩展
6. Influence of Pre-Stress Magnitude on Fatigue Crack Growth Behavior of Al-Alloy [O] . Chunguo Zhang, Weizhen Song, Qitao Wang, 2018

机译：预应力大小对铝合金疲劳裂纹扩展行为的影响
7. Characterisation of short fatigue cracks in titanium alloy IMI 834 using X-ray microtomography [O] . Chapman, T. P., Kareh, K. M., Knop, M., 2015

机译：用X射线显微断层图表征钛合金ImI 834的短疲劳裂纹
8. Influence of Metallurgical Factors on the Fatigue Crack Growth Rate in Alpha-Beta Titanium Alloys. [R] . chesnutt, j. c. thompson, a. w. 1978

机译：冶金因素对α-β钛合金疲劳裂纹扩展速率的影响。

Microstructural influences on fatigue crack growth in the near alpha titanium alloy timetal 834

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