Cohesive zone model for high-cycle fatigue of composite bonded joints under mixed-mode I plus II loading

de Moura M. F. S. F.; Goncalves J. P. M.

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Cohesive zone model for high-cycle fatigue of composite bonded joints under mixed-mode I plus II loading

机译：I + II混合载荷下复合材料粘结接头高周疲劳的内聚区模型

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A cohesive zone model to deal with high-cycle fatigue of composite bonded joints under mixed-mode I+II loading is developed. The model assumes a linear traction-relative displacements softening and uses a single parameter to simulate the cumulative damage resulting from static and fatigue loading. Finite element analyses considering the Single-Leg Bending test were conducted to verify the performance of the proposed method under different modified Paris laws and load ratios. It was verified that the model is able to capture all those effects with accuracy which proves the adequacy of the whole procedure concerning mixed-mode I+II fatigue/fracture characterization of composite bonded joints. (C) 2015 Elsevier Ltd. All rights reserved.

机译：建立了一种在复合模式I + II载荷下处理复合材料粘结接头高周疲劳的内聚力区域模型。该模型假设线性牵引相对位移变软，并使用单个参数来模拟静载荷和疲劳载荷导致的累积损伤。进行了考虑单腿弯曲试验的有限元分析，以验证该方法在不同的修正巴黎定律和载荷比下的性能。验证了该模型能够准确地捕获所有这些影响，证明了关于复合粘结接头的混合模式I + II疲劳/断裂特性的整个过程是足够的。（C）2015 Elsevier Ltd.保留所有权利。

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《Engineering Fracture Mechanics》 |2015年第null期|共12页
作者
de Moura M. F. S. F.; Goncalves J. P. M.;
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正文语种 eng
中图分类工程力学;
关键词
Cohesive zone model; High-cycle fatigue; Adhesively bonded joints; Mixed-mode I plus II loading; SLB test;

机译：内聚力区模型;高周疲劳;胶接接头;I + II混合载荷;SLB测试;

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1. Cohesive zone model for high-cycle fatigue of composite bonded joints under mixed-mode I plus II loading [J] . de Moura M. F. S. F., Goncalves J. P. M. Engineering Fracture Mechanics . 2015,第Null期

机译：I + II混合载荷下复合材料粘结接头高周疲劳的内聚区模型
2. Development of a cohesive zone model for fatigue/fracture characterization of composite bonded joints under mode II loading [J] . M.F.S.F. de Moura, J.P.M. Goncalves International Journal of Adhesion & Adhesives . 2014,第Null期

机译：II型载荷下复合材料粘结接头疲劳/断裂特性的内聚区模型的建立
3. Crack propagation analysis in composite bonded joints under mixed-mode (I+II) static and fatigue loading: experimental investigation and phenomenological modelling [J] . P.A. Carraro, G. Meneghetti, M. Quaresimin Journal of Adhesion Science and Technology: The International Journal of Theoredtical and Basic Aspects of Adhesion Science and Its Applications in All Areas of Technology . 2013,第11期

机译：混合模式（I + II）静态和疲劳载荷下复合材料接头的裂纹扩展分析：实验研究和现象学建模
4. SIMULATION OF DELAMINATION PROPAGATION IN COMPOSITES UNDER HIGH-CYCLE FATIGUE USING COHESIVE-ZONE MODELS [C] . A. Turon, J. Costa, P. P. Camanho, International Conference on Composite Materials . 2007

机译：使用粘性区模型在高循环疲劳下复合材料中分层繁殖的模拟
5. Fracture characterization of composite bonded joints under fatigue loading [D] . Fernández, Maria Victoria Castro 2013

机译：疲劳载荷下复合材料粘结接头的断裂特征
6. Analysis on Adhesively-Bonded Joints of FRP-steel Composite Bridge under Combined Loading: Arcan Test Study and Numerical Modeling [O] . Xu Jiang, Xuhong Qiang, Henk Kolstein, 2016

机译：组合荷载作用下FRP-钢组合桥胶结节点分析：Arcan试验研究与数值模拟
7. Cohesive zone model for high-cycle fatigue of adhesively bonded joints under mode I loading [O] . de Moura M.F.S.F., Gonçalves J.P.M. 2014

机译：I型载荷下胶接接头高周疲劳的内聚区模型

Cohesive zone model for high-cycle fatigue of composite bonded joints under mixed-mode I plus II loading

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