PHASE TRANSFORMATION THEORY APPLIED TO PREDICT FATIGUE CRACK PROPAGATION IN SOLID MATERIALS

机译：相变理论应用于预测固体材料中疲劳裂纹繁殖

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Mechanical deformation of a solid during fatigue cycling is broadly defined a phase transformation, because defects are produced that increase its internal energy. Change in the defect structure, crack initiation and growth are also examples of phase transformations. Many of the concepts of phase transformation theory are applicable to fatigue crack nucleation and propagation. The physical meaning of fatigue crack propagation in solid materials is studied by using energy considerations. Phase transformation theory is applied to predict the fatigue crack propagation rate in metals and alloys. The fatigue crack propagation rates predicted is compared with experimental data for different steels and aluminum alloys to demonstrate that the prediction of the theory agrees reasonably well with experimental results. The theory is applicable to predict fatigue crack propagation in solids under cyclic stress with corresponding experimental data.

机译：疲劳循环期间固体的机械变形广泛地定义相变，因为产生了增加其内部能量的缺陷。缺陷结构的变化，裂纹启动和生长也是相变的示例。相变理论的许多概念适用于疲劳裂纹成核和繁殖。通过使用能量考虑研究了固体材料中疲劳裂纹繁殖的物理含义。相变理论应用于预测金属和合金中的疲劳裂纹繁殖速率。预测的疲劳裂纹传播速率与不同钢和铝合金的实验数据进行了比较，以证明该理论的预测与实验结果相当好。该理论适用于通过相应的实验数据预测循环应力下固体中固体的疲劳裂纹繁殖。

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来源
《Materials Science Technology Conference》|2013年||共10页
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作者
Yao Yao; Leon M. Keer; Morris E. Fine;
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中图分类 71.221083;
关键词
phase transformation; crack propagation; fatigue; solid material; energy;

机译：相变;裂缝繁殖;疲劳;固体材料;能量;

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专利

1. Crystal plasticity model to predict fatigue crack nucleation based on the phase transformation theory [J] . Lu Liu, Jundong Wang, Tao Zeng, 力学学报：英文版 . 2019,第005期

机译：基于相变理论的晶体塑性模型预测疲劳裂纹成核
2. Modeling of materials capable of solid-solid phase transformation. Application to the analytical solution of the semi-infinite mode Ⅲ crack problem in a phase-changing solid [J] . Ziad Moumni, Wael Zaki, Quoc Son Nguyen, International journal of non-linear mechanics . 2015,第mara期

机译：能够进行固-固相变的材料建模。在相变固体中半无限Ⅲ型裂纹问题的解析解中的应用
3. Material Configurational Forces applied to mixed-mode fatigue crack propagation and life prediction in elastic-plastic material [J] . Ran Liu, Junling Hou, Qun Li International Journal of Fatigue . 2020,第May期

机译：材料构型力在弹塑性材料混合模式疲劳裂纹扩展和寿命预测中的应用
4. PHASE TRANSFORMATION THEORY APPLIED TO PREDICT FATIGUE CRACK PROPAGATION IN SOLID MATERIALS [C] . Yao Yao, Leon M. Keer, Morris E. Fine Materials Science Technology Conference . 2013

机译：相变理论应用于预测固体材料中疲劳裂纹繁殖
5. Kinematics of stage II fatigue crack propagation: A quantification of the plastic blunting process in one-phase metallic materials. [D] . Choi, Seon-ho. 2005

机译：第二阶段疲劳裂纹扩展的运动学：一相金属材料中塑料钝化过程的量化。
6. Effect of the Crack Tip Bifurcation on the Plasticity-Induced Fatigue Propagation in Metallic Materials [O] . Jesús Toribio, Beatriz González, Juan-Carlos Matos 2021

机译：裂纹尖端分叉对金属材料塑性诱导疲劳繁殖的影响
7. Solid state transformations and crack propagation : a phase field study [O] . Fleck Michael 2011

机译：固态转变和裂纹扩展：相场研究
8. Corrosion Fatigue Crack Propagation in Aluminum Alloys. Part I. Effect of Cyclic Stress Wave Form on Corrosion Fatigue Crack Propagation in Al-Zn-Mg Alloys. Part II. Mechanisms of Corrosion Fatigue Crack Propagation in Al-Zn-Mg Alloys [R] . Selines, R. J., Stoltz, R. E., Pelloux, R. M. 1972

机译：铝合金腐蚀疲劳裂纹扩展。第一部分循环应力波形对al-Zn-mg合金腐蚀疲劳裂纹扩展的影响。第二部分。 al-Zn-mg合金腐蚀疲劳裂纹扩展机理

PHASE TRANSFORMATION THEORY APPLIED TO PREDICT FATIGUE CRACK PROPAGATION IN SOLID MATERIALS

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