Comparison of DBEM and FEM crack path predictions in a notched shaft under torsion

R. Citarella; G. Cricri

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Comparison of DBEM and FEM crack path predictions in a notched shaft under torsion

机译：缺口轴杆扭转下DBEM和FEM裂纹路径预测的比较

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The rather complex 3D fatigue crack growth behaviour of two anti-symmetric ‘‘bird wing”cracks, initiated from the two crack front corner points of a notched shaft undergoing torsion,is investigated by the Dual Boundary Element Method (DBEM) and by the Finite Element Method (FEM). Different criteria for the crack path assessment (Minimum Strain Energy Density, Maximum Principal Stress and Approximate Energy Release Rate) and for the Stress Intensity Factor (SIF) evaluation (COD and J-integral) are adopted. The SIF’s and the crack path, calculated by such different approaches, turn out to be well consistent with each other. Moreover the simulated crack path qualitatively agrees with experimental findings available from literature.

机译：通过双重边界元法（DBEM）和有限元法研究了两个对称的“鸟翼”裂纹的复杂的3D疲劳裂纹扩展行为，这些裂纹是从缺口轴杆的两个裂纹前角点开始的。元素方法（FEM）。采用了不同的裂纹路径评估标准（最小应变能密度，最大主应力和近似能量释放率）和应力强度因子（SIF）评估（COD和J积分）。通过不同的方法计算出的SIF和裂纹路径相互之间非常一致。而且，模拟的裂纹路径在质量上与可从文献中获得的实验结果一致。

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《Engineering Fracture Mechanics》 |2010年第11期|共20页
作者
R. Citarella; G. Cricri;
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正文语种 eng
中图分类工程力学;
关键词
DBEM; FEM; Multiple site damage; 3D crack growth;

机译：DBEM;FEM;多部位损伤;3D裂纹扩展;

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专利

1. Comparison of DBEM and FEM crack path predictions in a notched shaft under torsion [J] . R. Citarella, G. Cricri Engineering Fracture Mechanics . 2010,第11期

机译：缺口轴杆扭转下DBEM和FEM裂纹路径预测的比较
2. Comparison of Computational Crack Path Predictions with Experimental Findings for a Quarter-Circular Surface Crack in a Shaft under Torsion [J] . F.-G. Buchholz, J. Wiebesiek, M. Fulland, Key Engineering Materials . 2007,第期

机译：轴作用下四分之一圆表面裂纹的计算裂纹路径预测与实验结果的比较
3. Comparison of crack growth simulation by DBEM and FEM for SEN-specimens undergoing torsion or bending loading [J] . R. Citarella, F.-G. Buchholz Engineering Fracture Mechanics . 2008,第3a4期

机译：用DBEM和FEM对承受扭转或弯曲载荷的SEN试样进行裂纹扩展模拟的比较
4. Comparison of DBEM and FEM Crack Path Predictions with Experimental Findings for a SEN-Specimen under Anti-Plane Shear Loading [C] . Roberto Citarella, Friedrich-G. Buchholz International Conference on Fracture and Damage Mechanics(FDM 2007); 20070717-19; Madeira(PT) . 2007

机译：反平面剪切载荷下SEN样品的DBEM和FEM裂纹路径预测与实验结果的比较
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. Numerical Analysis of Fatigue Crack Growth Path and Life Predictions for Linear Elastic Material [O] . Abdulnaser M. Alshoaibi, Yahya Ali Fageehi 2020

机译：线性弹性材料疲劳裂纹生长路径和寿命预测的数值分析
7. Prediction of Fatigue Crack Propagation Path under Combined Torsional and Axial Loading [O] . Keisuke TANAKA, Hiroki TAKAHASHI, Takuya KATO, 2005

机译：组合扭转轴向载荷下疲劳裂纹传播路径的预测

Comparison of DBEM and FEM crack path predictions in a notched shaft under torsion

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