The Significance of Plastic Zone Growth under Cyclic Loading and Crack Opening/Closing Model in Fatigue Crack Propagation

机译：循环载荷开/闭合模型下塑性区生长的意义疲劳裂纹传播

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Fatigue cracks remain closed at lower loadiag level during a part of load cycle even though a fension-to-tension loading is applied. The crack closure plays a role to obstruct the generation and growth of compressive plastic zone during unloading. Cyclic plastic work, which corresponds to an irreversible energy consumed in a cracked body is generated ahead of a crack, is required as a fatigue crack driving force. The amout of cyclic plasticity is reduced by a crack closure. The crack opening/closing model based on the Dugdale model under arbitrary stress distributions for a through thickness straight crack is proposed and the fatigue crack growth under various loadings is investigated.

机译：在载荷周期的一部分期间，疲劳裂缝在较低的LoadiaG水平下保持闭合，即使施加粘滞循环载荷。裂缝闭合起到卸载期间妨碍压缩塑料区的产生和生长的作用。循环塑性工作，其对应于在裂缝体中消耗的不可逆能量的裂缝产生，需要作为疲劳裂缝驱动力所必需的。通过裂缝闭合减少了循环可塑性的Amout。提出了基于Dugdale模型的裂缝打开/闭合模型在任意应力分布下进行通过厚度的直裂纹，并研究了各种载荷下的疲劳裂纹生长。

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《International Conference on Materials Structure and Micromechanics of Fracture》|2005年||共8页
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作者
M. Toyosada; K. Gotoh;
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原文格式 PDF
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中图分类 TB3-53;
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Fatigue; Cyclic plasticity; Crack closure; RPG(Re-tensile Plastic zone's Generated) load; Numerical simulation of fatigue crack growth; Threshold of stress intensity factor;

机译：疲劳;循环可塑性;裂缝闭合;RPG（重张拉伸塑料区产生）负荷;疲劳裂纹裂纹增长的数值模拟;应力强度因子的阈值;

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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. A prediction model for fatigue crack growth using effective cyclic plastic zone and low cycle fatigue properties [J] . Shi K. K., Cai L. X., Qi S., Engineering Fracture Mechanics . 2016,第Null期

机译：利用有效循环塑性区和低周疲劳特性的疲劳裂纹扩展预测模型
4. The Significance of Plastic Zone Growth under Cyclic Loading and Crack Opening/Closing Model in Fatigue Crack Propagation [C] . International Conference on Materials Structure Micromechanics of Fracture . 2005

机译：循环载荷开/闭合模型下塑性区生长的意义疲劳裂纹传播
5. FATIGUE BEHAVIOR UNDER MULTIAXIAL LOADING IN THE PRESENCE OF A NOTCH: METHODOLOGIES FOR THE PREDICTION OF LIFE TO CRACK INITIATION AND LIFE SPENT IN CRACK PROPAGATION (SHOULDER FILLET, PLASTIC STRAIN, PREDICTION). [D] . TIPTON, STEVEN MICHAEL. 1985

机译：有缺口的情况下在多轴载荷下的疲劳行为：预测裂纹扩展中的寿命至裂纹萌生和寿命的方法学（胎片，塑性应变，预测）。
6. Computational modeling of fatigue crack propagation in butt welded joints subjected to axial load [O] . Oscar Araque, Nelson Arzola, Omar Varón -1

机译：轴向载荷作用下对接焊缝疲劳裂纹扩展的计算模型
7. Farsighted Considerations of Fatigue Limit, Crack Opening/Closing Phenomena and Plastic Zone around Crack under Variable Amplitude Loading [O] . Masahiro Toyosada, Kieitaro Konuma 2004

机译：在可变幅度载荷下，疲劳极限，裂缝打开/关闭现象和塑料区的远视考虑
8. Fatigue Crack Propagation in a High-Strength Steel under Constant Cyclic Load with Variable Mean Loads [R] . Crooker, T. W., Lange, E. A. 1968

机译：高负荷恒定循环载荷下高强度钢的疲劳裂纹扩展

The Significance of Plastic Zone Growth under Cyclic Loading and Crack Opening/Closing Model in Fatigue Crack Propagation

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