Analytical modeling of fatigue crack propagation based on cyclic hardening and a characteristic damage length

A.T. Kermanidis; A. Tzamtzis

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Analytical modeling of fatigue crack propagation based on cyclic hardening and a characteristic damage length

机译：基于循环硬化的疲劳裂纹传播分析与特征损伤长度

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摘要

An analytical fatigue crack growth model is developed, which combines effectively a cyclic energy dissipation approach and the strain energy density theory. The model uses cyclic material properties and relies on cyclic hardening for fatigue crack growth rate prediction. Fatigue crack propagation occurs incrementally by a characteristic damage length, which is in the length scale of striation spacing in commercial aluminum alloy, supporting the model's physical background. Analytical crack propagation rates correlate well with existing experimental data, in material with uniform strength and strength gradient, showing the ability of the model to account for strength variation at the crack path.

机译：开发了一种分析疲劳裂缝生长模型，其有效地结合了循环能量耗散方法和应变能密度理论。该模型采用循环材料特性并依赖于疲劳裂纹生长速率预测的循环硬化。疲劳裂纹传播通过特征损伤长度逐渐发生，这是商业铝合金中的突变间距的长度等级，支持模型的物理背景。分析裂纹传播速率与具有均匀强度和强度梯度的材料具有良好的现有实验数据，显示模型考虑了裂纹路径强度变化的能力。

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来源
《International Journal of Fatigue》 |2020年第12期|105864.1-105864.10|共10页
作者
A.T. Kermanidis; A. Tzamtzis;
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作者单位

Laboratory of Mechanics and Strength of Materials Department of Mechanical Engineering University of Thessaly Greece;

Laboratory of Mechanics and Strength of Materials Department of Mechanical Engineering University of Thessaly Greece;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Analytical model; Fatigue crack growth; Cyclic hardening; Crack advancement; Strength gradient;

机译：分析模型;疲劳裂纹增长;循环硬化;裂缝进步;力量梯度;

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1. Fatigue crack propagation prediction by cyclic plasticity damage accumulation models [J] . J. A. R. DURAN, J. T. P. CASTRO, J. C. P. FILHO Fatigue & Fracture of Engineering Materials & Structures . 2003,第2期

机译：基于循环塑性损伤累积模型的疲劳裂纹扩展预测
2. Fatigue crack growth determination based on cyclic plastic zone and cyclic J-integral in kinematic-isotropic hardening materials with considering Chaboche model [J] . Reza Hosseini, Rahman Seifi Fatigue & fracture of engineering materials and structures . 2020,第11期

机译：考虑Chaboche模型，基于循环塑料区的循环塑料区和循环J-积分的疲劳裂纹生长测定
3. Effect of damage evaluation method and cyclic hardening models on strain-based fatigue assessment to a piping system under seismic loads [J] . Journal of Mechanical Science and Technology . 2020,第7期

机译：损伤评价方法与循环硬化模型对地震载荷下管道系统的应变疲劳评估的影响
4. LOW CYCLE FATIGUE DAMAGE MODEL OF CYCLIC HARDENING OR CYCLIC SOFTENING MATERIALS [C] . Shang Hongxue, Ding Haojiang International symposium on microstructures and mechanical properties of new engineering materials;IMMM'95 . 1995

机译：循环硬化或循环软化材料的低循环疲劳损伤模型
5. FATIGUE CRACK INITIATION AND THE DETECTION OF SURFACE DAMAGE IN AN AGE HARDENING STAINLESS STEEL (MICROCRACK DENSITY, GROWTH-RATE, OPTICAL CORRELATION, FATIGUE LIFE PREDICTION) [D] . CHANG, NAM SOON. 1985

机译：时效硬化不锈钢的疲劳裂纹萌生和表面损伤的检测（微裂纹密度，生长速率，光学相关性，疲劳寿命预测）
6. An Artificial Neural Network-Based Algorithm for Evaluation of Fatigue Crack Propagation Considering Nonlinear Damage Accumulation [O] . Wei Zhang, Zhangmin Bao, Shan Jiang, 2016

机译：基于非线性损伤累积的基于神经网络的疲劳裂纹扩展评估算法
7. Method of Estimating Fatigue-Crack Propagation Properties Based on Accumulated Damage Model [O] . Takeshi TERASAKI, Hisashi TANIE 2008

机译：基于累积损伤模型估算疲劳裂纹传播特性的方法
8. Cyclic Crack Propagation Characteristics of the Powder Metallurgical Nickel-Base Alloy Udimet 720 at Elevated Temperatures and Different Dwell Times [R] . Affeldt, E., Floege, H., Kraus, M. 1988

机译：粉末冶金镍基合金Udimet 720在高温和不同停留时间下的循环裂纹扩展特性

Analytical modeling of fatigue crack propagation based on cyclic hardening and a characteristic damage length

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