Crack growth analysis at adhesive-adherent interface in bonded joints under mixed mode I/II

G.V. Marannano; L. Mistretta; A. Cirello

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Crack growth analysis at adhesive-adherent interface in bonded joints under mixed mode I/II

机译：I / II混合模式下胶接接头胶接界面裂纹扩展分析

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The propagation of an interface crack subjected to mixed mode I/II was investigated for two 2024-T351 aluminum thin layers joined by means of DP760 epoxy adhesive produced by 3M~C. On the basis of beam theory, an analytical expression for computing the energy release rate is presented for the mixed-mode end loaded split (MMELS) test. The analytical strain energy release rate was compared by finite element (FE) analysis using the virtual crack closure technique (VCCT). Several fatigue crack growth tests were carried out in a plane bending machine to compare the experimental energy release rates to those of the analytical and FE solutions. Experimental results showed the relationship between the delamination modality and initial crack length rather than the applied load. The crack growth behavior showed stable crack growth followed by rapid propagation at the interface with the adhesive layer.

机译：研究了通过3M〜C制备的DP760环氧胶粘剂连接的两个2024-T351铝薄层在混合模式I / II下的界面裂纹扩展。基于梁理论，给出了混合模式端载荷分裂（MMELS）测试中能量释放率的解析表达式。使用虚拟裂纹闭合技术（VCCT）通过有限元（FE）分析比较了分析应变能释放速率。在平面弯曲机上进行了几次疲劳裂纹扩展测试，以比较实验能量释放速率与分析和有限元解决方案的能量释放速率。实验结果表明分层方式与初始裂纹长度之间的关系，而不是所施加的载荷。裂纹扩展行为显示出稳定的裂纹扩展，随后在与粘合剂层的界面处迅速扩展。

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《Engineering Fracture Mechanics》 |2008年第18期|共12页
作者
G.V. Marannano; L. Mistretta; A. Cirello;
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正文语种 eng
中图分类工程力学;
关键词
Adhesive joint; Interface crack; MMELS specimen; Virtual crack closure technique; Crack growth;

机译：粘接接头;界面裂纹;MMELS试样;虚拟裂纹封闭技术;裂纹扩展;

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1. Crack growth analysis at adhesive-adherent interface in bonded joints under mixed mode I/II [J] . G.V. Marannano, L. Mistretta, A. Cirello Engineering Fracture Mechanics . 2008,第18期

机译：I / II混合模式下胶接接头胶接界面裂纹扩展分析
2. Crack propagation analysis in composite bonded joints under mixed-mode (I + II) static and fatigue loading: a damage-based model [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13期

机译：混合模式（I + II）静载荷和疲劳载荷下复合材料接头的裂纹扩展分析：基于损伤的模型
3. A model for predicting the mixed-mode fatigue crack growth in a bonded joint [J] . G. MARANNANO, A. PASTA, A. GIALLANZA Fatigue & Fracture of Engineering Materials & Structures . 2014,第4期

机译：预测接合点混合模式疲劳裂纹扩展的模型
4. FATIGUE DISBOND GROWTH FOR AN ADHESIVELY BONDED COMPOSITE JOINT UNDER MIXED MODE I/II LOADING [C] . Chun Li, Tim Teng, Zhong Yi Wan, SAMPE Seattle conference amp; exhibition . 2014

机译：混合模式I / II载荷下胶粘复合接头的疲劳崩解生长
5. ON THE NONLINEAR DYNAMIC RESPONSE OF ARCH DAMS TO EARTHQUAKES - I. FLUID-STRUCTURE INTERACTION: ADDED-MASS COMPUTATIONS FOR INCOMPRESSIBLE FLUID. II. JOINT OPENING NONLINEAR MECHANISM: INTERFACE SMEARED CRACK MODEL. [D] . KUO, JAMES SHAW-HAN. 1982

机译：关于拱坝对地震的非线性动力响应-I.流体-结构相互作用：不可压流体的附加质量计算。二。关节开放非线性机制：界面测裂纹模型。
6. Study of the Fatigue Crack Growth in Long-Term Operated Mild Steel under Mixed-Mode (I + II I + III) Loading Conditions [O] . Grzegorz Lesiuk, Michał Smolnicki, Dariusz Rozumek, 2020

机译：混合模式（I + III + III）载荷条件下长期运行的低碳钢的疲劳裂纹扩展研究
7. Mixed-mode fatigue crack growth in FM73 bonded joints [O] . Hafiz, TA, Abdel-Wahab, MM, Crocombe, AD, 2013

机译：FM73粘结接头的混合模式疲劳裂纹扩展
8. Characterization of Fatigue Crack Growth in Bonded Structures. Volume II. Analysis of Cracked Bonded Structures. [R] . ratwani, m. m. 1977

机译：粘结结构中疲劳裂纹扩展的表征。第二卷。裂纹结合结构分析。

Crack growth analysis at adhesive-adherent interface in bonded joints under mixed mode I/II

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