MULTI-SCALE MODELING AND EXPERIMENTAL VALIDATION FOR COMPONENT FATIGUE LIFE PREDICTION

机译：组件疲劳寿命的多尺度建模与实验验证

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A fatigue failure prediction procedure is discussed based on a two scale micro meso mechanical model for metallic structures. This model predicts the fatigue life and accounts for physical quantities like the mean stress effect in high cycle fatigue. Another model developed at meso-scale level with BCJ (Bammann, Chiesa and Johnson, 1996, Theoretical and Applied Mechanics, Tatsumi, Watanabe and Kambe (Editors), 359-376) internal state variables, is used to predict progressive damage in ductile materials. This meso-scale model is incorporated within the general purpose finite element software ABAQUS through a user subroutine VUMAT. A lug joint specimen is simulated using the BCJ model modified for fatigue and the location of the crack initiation sites is found. Experiments are conducted with the lug joint specimen under fatigue loading and the models are validated for the fatigue life prediction and location of the damage sites.

机译：基于金属结构的两尺度微细观力学模型，讨论了疲劳失效预测程序。该模型可预测疲劳寿命并考虑物理量，例如高周疲劳中的平均应力效应。使用BCJ在中尺度水平上开发的另一种模型（Bammann，Chiesa和Johnson，1996年，理论和应用力学，Tatsumi，Watanabe和Kambe（编辑，359-376））内部状态变量用于预测延性材料的渐进破坏。该中尺度模型通过用户子例程VUMAT集成到通用有限元软件ABAQUS中。使用针对疲劳而修改的BCJ模型对凸耳接头样本进行了模拟，并找到了裂纹萌生部位的位置。对凸耳接头试样在疲劳载荷下进行了实验，并验证了模型的疲劳寿命预测和损伤部位的位置。

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《International Mechanical Engineering Congress and Exposition 2007》|2008年|P.2127|共2页
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Sunilkumar Soni; Jun Wei; Aditi Chattopadhyay; Pedro Peralta;
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中图分类计算机软件;
关键词
N_R: Number of cycles for fatigue; E: Young's Modulus; S: Damage strength; s: Damage exponent; C: Kinematic hardening; R_v: Triaxiality function; k: Material parameter; σ: Maximum stress; σ_f: Fatigue limit of the material; Φ: Damage index;

机译：N_R：疲劳循环次数; E：杨氏模量; S：破坏强度; s：破坏指数; C：运动硬化; R_v：三轴函数; k：材料参数;σ：最大应力;σ_f：材料的疲劳极限;Φ：破坏指数;

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MULTI-SCALE MODELING AND EXPERIMENTAL VALIDATION FOR COMPONENT FATIGUE LIFE PREDICTION

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