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Fatigue Life Prediction Under Constant Amplitude and Interspersed Mode-I and Mixed-Mode (I and II) Overload using An Exponential Modelud

机译：使用指数模型预测恒定振幅和散置模式I和混合模式（I和II）过载下的疲劳寿命 ud

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Fatigue performance of structures is greatly affected by the presence of stress raisers such as fastener holes, manufacturing errors, corrosion pits, and maintenance damage which serve as nucleation sites for fatigue cracking. During service, sub-critical cracks nucleate from these sites and grow till catastrophic failure takes place when the crack length reaches a critical dimension. A structure can not be retired from service simply on detecting a fatigue crack. Hence, proper evaluation of fatigue crack propagation and residual life prediction of structures (aircraft, ship, railways, bridges, gas and oil transmission pipelines, etc.) are important to ensure the public safety, environmental protection, and economical consideration.

机译：结构的疲劳性能在很大程度上受到应力提升器（例如紧固件孔，制造错误，腐蚀坑和维护损伤）的影响，而疲劳裂纹是疲劳裂纹的成核部位。在使用过程中，次临界裂纹从这些位置成核，并一直延伸到裂纹长度达到临界尺寸时发生灾难性破坏。仅仅检测疲劳裂纹就无法使结构退役。因此，对疲劳裂纹扩展和结构（飞机，轮船，铁路，桥梁，输气和输油管道等）的剩余寿命进行正确评估对于确保公共安全，环境保护和经济考虑非常重要。

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Mohanty Jyotiranjan;
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年度 2009
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1. Prediction of fatigue life with interspersed mode-I and mixed-mode (I and II) overloads by an exponential model: Extensions and improvements [J] . J.R. Mohanty, B.B. Verma, P.K. Ray Engineering Fracture Mechanics . 2009,第3期

机译：通过指数模型预测散布模式-I和混合模式（I和II）过载的疲劳寿命：扩展和改进
2. Application of Artificial Neural Network for Fatigue Life Prediction under Interspersed Mode-I Spike Overload [J] . J. R. Mohanty, B. B. Verma, P. K. Ray, Journal of testing and evaluation . 2010,第2期

机译：人工神经网络在I型尖峰过载下疲劳寿命预测中的应用
3. Prediction of residual fatigue life under interspersed mixed-mode (Ⅰ and Ⅱ) overloads by Artificial Neural Network [J] . J. R. MOHANTY, D. R. K. PARHI, P. K. RAY, Fatigue & fracture of engineering materials and structures . 2009,第12期

机译：人工神经网络预测混合（Ⅰ和Ⅱ）混合载荷下的残余疲劳寿命
4. TRANSITIONAL BEHAVIOR OF RESIDUAL FATIGUE LIFE AFTER APPLYING OVERLOAD DURING FATIGUE CRACK GROWTH WITH CONSTANT STRESS AMPLITUDE [C] . Anindito Pumowidodo, Tatsujiro Mlyazaki, Chobin Makabe, PVP-vol.480; American Society of Mechanical Engineers and Japan Society of Mechanical Engineers(ASME/JSME) Pressure Vessels and Piping Conference; 20040725-29; San Diego,CA(US) . 2004

机译：在恒定应力幅值的疲劳裂纹扩展过程中施加过载后残余疲劳寿命的过渡行为
5. Biaxial fatigue crack growth and crack closure under constant amplitude and periodic compressive overload histories in 1045 steel. [D] . Varvani-Farahani, Ahmad. 1998

机译：1045钢在恒定振幅和周期性压缩过载历史下的双轴疲劳裂纹扩展和裂纹闭合。
6. Comparative Study of Phenomenological Residual Strength Models for Composite Materials Subjected to Fatigue: Predictions at Constant Amplitude (CA) Loading [O] . Alberto D’Amore, Luigi Grassia 2019

机译：复合材料承受疲劳的现象学残余强度模型的比较研究：恒定振幅（CA）载荷下的预测
7. Development of Exponential Model to Find Fatigue Crack Growth and Residual Life for Constant Amplitude Loading [O] . Dewangan Tikendra 2013

机译：在恒定振幅载荷下寻找疲劳裂纹扩展和剩余寿命的指数模型的发展

Fatigue Life Prediction Under Constant Amplitude and Interspersed Mode-I and Mixed-Mode (I and II) Overload using An Exponential Modelud

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