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Next Generation 3D Mixed Mode Fracture Propagation Theory Including HCF- LCF Interaction (Preprint)

机译：下一代3D混合模式断裂传播理论，包括HCF-LCF相互作用（预印本）

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The damage tolerance assessment of complex aerospace structural components requires the capability of effective modeling of 3D cracks and their associated propagation and velocity and path under fatigue loads. A 3D mixed mode crack propagation theory is presented which includes the effect of KI, KII, and KIII, as well as non-proportional loading, elastic and fracture resistance anisotropy, and fracture mode asymmetry (viz. the ability to transition between competing tensile and shear modes of propagation). A modified strain energy release rate criterion including the modeling of crack closure is developed and presented for a representative problem. An elementary, mode I characterization of closure is used, leaving shear mode closure as fertile ground for further study. Use of the model is presented for an example problem with steady- vibratory interaction.

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Pettit, R.; Annigeri, B.; Owen, W.; Wawrzynek, P.;
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年度 2010
页码 1-22
总页数 22
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Crack propagation ; Mathematical models ; Fatigue(Mechanics) ; Aerospace craft ; Fracture(Mechanics) ; Damage tolerance ; Cracks ; Tensile properties ; Elastic properties ; Strain rate ; Asymmetry ; Anisotropy ; Transitions ; Structural components ; Loads(Forces) ; Resistance ; Models ; Skills ; Closures ; Shear properties ; Energy transfer;

机译：裂纹扩展;数学模型;疲劳（力学）;航空航天工艺;断裂（力学）;损伤容限;裂纹;拉伸性能;弹性性能;应变率;不对称性;各向异性;过渡;结构部件;载荷（力）;阻力;模型;技能;闭合;剪切属性;能量转移;

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Next Generation 3D Mixed Mode Fracture Propagation Theory Including HCF- LCF Interaction (Preprint)

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