An Alternative Technique to Evaluate Crack Propagation Path in Hyperelastic Materials

R. R. M. Ozelo; P. Sollero; A. L. A. Costa

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An Alternative Technique to Evaluate Crack Propagation Path in Hyperelastic Materials

机译：评价超弹性材料中裂纹扩展路径的另一种技术

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The analysis of crack propagation in tires aims to provide safety and reliable life prediction. Tire materials are usually nonlinear and present a hyperelastic behavior. Therefore, the use of nonlinear fracture mechanics theory and a hyperelastic material constitutive model are necessary. The material constitutive model used in this work is the Mooney-Rivlin. There are many techniques available to evaluate the crack propagation path in linear elastic materials and estimate the growth direction. However, most of these techniques are not applicable to hyperelastic materials. This paper presents an alternative technique for modeling crack propagation in hyperelastic materials, based in the J-Integral, to evaluate the crack path. The J-Integral is an energy-based parameter and is applicable to nonlinear materials. The technique was applied using ABAQUS software and compared to experimental tests.

机译：轮胎中裂纹扩展的分析旨在提供安全可靠的寿命预测。轮胎材料通常是非线性的，并表现出超弹性。因此，必须使用非线性断裂力学理论和超弹性材料本构模型。在这项工作中使用的材料本构模型是Mooney-Rivlin。有许多技术可用于评估线性弹性材料中的裂纹扩展路径并估计其生长方向。但是，大多数这些技术不适用于超弹性材料。本文基于J-Integral，提出了一种用于模拟超弹性材料中裂纹扩展的替代技术，以评估裂纹路径。 J积分是基于能量的参数，适用于非线性材料。该技术是使用ABAQUS软件应用的，并与实验测试进行了比较。

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《Tire Science and Technology》 |2012年第1期|共17页
作者
R. R. M. Ozelo; P. Sollero; A. L. A. Costa;
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正文语种 eng
中图分类橡胶工业;
关键词
Crack propagation; Fatigue; Crack growth direction;

机译：裂纹扩展;疲劳;裂纹扩展方向;

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1. An Alternative Technique to Evaluate Crack Propagation Path in Hyperelastic Materials [J] . R. R. M. Ozelo, P. Sollero, A. L. A. Costa Tire Science and Technology . 2012,第1期

机译：评价超弹性材料中裂纹扩展路径的另一种技术
2. Strain-injection and crack-path field techniques for 3D crack-propagation modelling in quasi-brittle materials [J] . Dias I. F., Oliver J., Lloberas-Valls O. International Journal of Fracture . 2018,第1期

机译：准脆性材料3D裂纹传播建模的应变注射和裂纹路径现场技术
3. Sensitivity analysis based crack propagation criterion for compressible and (near) incompressible hyperelastic materials [J] . Primoz Sustaric, Mariana R.R. Seabra, Jose M.A. Cesar de Sa, Finite Elements in Analysis and Design . 2014,第may期

机译：基于敏感性分析的可压缩和（近）不可压缩超弹性材料的裂纹扩展准则
4. Crack propagation paths near bi-material interfaces [C] . L. Marsavina, T. Sadowski, M. Knec International Conference on Fracture . 2009

机译：Bi-Material Interfaces附近的裂缝传播路径
5. Application of probabilistic and multiple-criteria techniques in evaluating alternative reinforcement materials for increasing bridge deck life. [D] . Samdariya, Ashish. 2012

机译：概率和多准则技术在评估替代加固材料以延长桥面板寿命中的应用。
6. Characterization and Prediction of Cracks in Coated Materials: Direction and Length of Crack Propagation in Bimaterials [O] . C. I. Pruncu, Z. Azari, C. Casavola, 2015

机译：涂层材料裂纹的表征和预测：双材料中裂纹扩展的方向和长度
7. Propagation Behavior of Root Crack in Y- and y-Grooved Restraint Cracking Test of 80kg/mm^2 Class Steel on the Basis of AE Source Location Technique : Application of Acoustic Emission Technique for Weld Cracking (IV)(Materials, Metallurgy, Weldability) [O] . MATSUDA Fukuhisa, NAKAGAWA Hiroji, MORIMOTO Yoshinori 2013

机译：基于AE源定位技术的80kg / mm ^ 2级钢Y型槽和y型槽约束裂纹试验中根裂纹的扩展行为：声发射技术在焊接裂纹中的应用（IV）（材料，冶金，焊接性）
8. Assessment of Fatigue Damage and Crack Growth Prediction Techniques (L'Evaluation de l'Endommagement en Fatigue et les Techniques de Prediction de la Propagation des Fissures). [R] . 1994

机译：评估疲劳损伤和裂纹增长预测技术（L'Evaluation de l'Endommagement en Fatigue et les Techniques de prediction de la propagation des Fissures）。

An Alternative Technique to Evaluate Crack Propagation Path in Hyperelastic Materials

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