The strength and life of adhesively bonded joints can be significantly improved by redistributing the stresses at overlap ends over the bond length. One way to achieve this is by varying the material properties, with the help of so-called functionally graded materials (FGM). In this study, stress transfer mechanics in a joint made of a FGM adherend and a homogeneous, isotropic adhesive are investigated. Damage in the adhesive bonded FGM joints manifests as cohesive and adhesive failures. Some of these damages can simultaneously present in the joint. Therefore, the adhesion failure and their propagation in a curved FGM adherend are studied here. All the simulations are performed in a geometric nonlinear finite element (FE) simulation framework using ABAQUS framework. Loss of structural integrity in a lap shear joint made of FGM adherend with a pre-embedded crack at the interface of adherend and adhesive is modelled, and the load transfer and damage propagation are studied. Furthermore, a parametric study of the structural response by varying the parameters: shallowness angle ( theta) and compositional gradient exponent (n) are also performed. Based on the results, mode-II is observed to be a dominating mode. The debonding from the substrate is found to initiate from the centre when n is the lowest.
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机译:通过在粘接长度上重新分配重叠端的应力,可以显着提高粘接接头的强度和寿命。实现这一目标的一种方法是借助所谓的功能梯度材料 (FGM) 来改变材料特性。在这项研究中,研究了由FGM粘附物和均质各向同性粘合剂制成的接头中的应力传递机制。粘接 FGM 接头的损坏表现为粘结和粘接失效。其中一些损伤可能同时出现在关节中。因此,本文研究了粘附失效及其在弯曲的FGM粘附物中的传播。所有仿真均使用ABAQUS框架在几何非线性有限元(FE)仿真框架中进行。对FGM粘附物与粘结物界面处预埋裂纹的搭接剪切缝结构完整性的丧失进行了建模,研究了荷载传递和损伤传播规律。此外,还通过改变参数对结构响应进行了参数研究:浅度角(theta)和成分梯度指数(n)。根据结果,观察到模式II是一种主导模式。发现当 n 最低时,与基板的脱键是从中心开始的。
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