A fracture mechanics life prediction methodology applied to dovetail fretting

P. J. Golden; J. R. Calcaterra

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A fracture mechanics life prediction methodology applied to dovetail fretting

机译：断裂力学寿命预测方法在燕尾微动中的应用

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This work evaluates a fracture mechanics based crack growth life prediction methodology for dovetail fretting fatigue laboratory experiments. The Ti-6Al-4V specimens were configured with angles of 35°, 45° and 55°. Experiments were conducted with constant amplitude loading at R of 0.1 and 0.5 with lives ranging from 100,000 to 10 million cycles. The approach included the contact loads and bulk stress calculated from the finite element method as inputs to the stress and life analysis. Contact stresses were calculated using the contact stress analysis software CAPRI. These stresses were input into a stress intensity factor calculation at the edge of contact. Crack propagation life was calculated from an assumed initial crack size. Analysis showed that propagation consumes a majority of the total life and is insensitive to a large range of initial crack sizes.

机译：这项工作评估了基于断裂力学的裂纹扩展寿命预测方法，用于燕尾微动疲劳实验室实验。 Ti-6Al-4V样品的夹角为35°，45°和55°。在R值为0.1和0.5的恒定振幅负载下进行实验，寿命范围为100,000至1000万个循环。该方法包括通过有限元方法计算出的接触载荷和整体应力，作为应力和寿命分析的输入。使用接触应力分析软件CAPRI计算接触应力。这些应力被输入到接触边缘的应力强度因子计算中。根据假定的初始裂纹尺寸计算出裂纹扩展寿命。分析表明，扩散消耗了整个寿命的大部分，并且对大范围的初始裂纹尺寸不敏感。

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《Tribology International》 |2006年第10期|共9页
作者
P. J. Golden; J. R. Calcaterra;
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正文语种 eng
中图分类机械摩擦、磨损与润滑;
关键词
Fracture mechanics; Fatigue crack growth; Fretting fatigue; Dovetail; Ti-6Al-4V;

机译：断裂力学;疲劳裂纹扩展;微动疲劳;燕尾榫;Ti-6Al-4V;

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专利

1. A fracture mechanics life prediction methodology applied to dovetail fretting [J] . P. J. Golden, J. R. Calcaterra Tribology International . 2006,第10期

机译：断裂力学寿命预测方法在燕尾微动中的应用
2. Fracture mechanics based fretting fatigue life predictions in Ti-6Al-4V [J] . P.J. Golden, A.F. Grandt Jr. Engineering Fracture Mechanics . 2004,第15期

机译：Ti-6Al-4V中基于断裂力学的微动疲劳寿命预测
3. A fracture mechanics based approach for the fretting fatigue of aircraft engine fan dovetail attachments [J] . Mangardich Dikran, Abrari Farid, Fawaz Zouheir International Journal of Fatigue . 2019,第Deca期

机译：基于断裂力学的飞机发动机风扇燕尾附件微动疲劳方法
4. A FRACTURE MECHANICS BASED METHODOLOGY FOR FATIGUE LIFE PREDICTION OF SINGLE CRYSTAL NICKEL BASED SUPERALLOYS [C] . Srikant Ranjan, Nagaraj K. Arakere ASME TURBO exposition . 2006

机译：基于裂缝力学的疲劳寿命预测方法的单晶镍超合金
5. Extension of a fracture mechanics and half-cycle method for fatigue life predictions to include plasticity-induced closure effect [D] . Felts, Christopher W. 2003

机译：扩展断裂力学和半周期方法来预测疲劳寿命，以包括可塑性引起的闭合效应
6. Survival Predictions of Ceramic Crowns Using Statistical Fracture Mechanics [O] . S. Nasrin, N. Katsube, R.R. Seghi, -1

机译：使用统计断裂力学的陶瓷冠的生存预测
7. Fracture mechanics and damage mechanics based fatigue lifetime prediction of adhesively bonded joints subjected to variable amplitude fatigue [O] . Shenoy, V, Ashcroft, IA, Critchlow, GW, 2010

机译：基于断裂力学和损伤力学的变幅疲劳的胶接接头疲劳寿命预测
8. Fracture Mechanics and Service Life Prediction Research. [R] . Liu, C. T. 2002

机译：断裂力学与使用寿命预测研究。

A fracture mechanics life prediction methodology applied to dovetail fretting

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