A Study of Stress Intensity Factors in Lozenge Pattern of Joints

K. Hithendra, R. Prakash
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Abstract

Riveted joints are very crucial in many industrial applications. Several studies have been carried out to understand the response of lap joints and butt joints with single and double row of rivets emphasizing on total fatigue life and residual stress evaluation. Studies that deal with initial crack and stress intensity factors (SIF) during its progress are very less. In addition, there is very less data on joints formed with Lozenge pattern. The present work aims to bridge this gap with studies on the Lozenge pattern of rivets with focus on the SIF in strap plates, given the fact that the initial cracks appear on them when the strap thickness is less than or equal to the plate thickness. The strap plate considered has six joints in Lozenge pattern in 3-2-1 fashion. Cracks were induced at different joint locations and variation of the stress intensity factor with progress in crack size was evaluated using Finite Element Analysis. Studies were conducted for various interference levels of practical interest. The most critical location of the crack and the most beneficial levels of interference were identified. Limits of interference, beyond which SIF increases drastically, were identified. Combined influence of interference and neighboring geometrical aspects such as holes and boundaries was recorded. Studies were also conducted to evaluate if there is a need for uniform interference at all joint locations. Also, to simulate the real world scenario, several combinations of random interference were induced at the joints and the SIF results were compared with that of uniform interference values. Finally, the effect of change in back pitch of the joints was also studied.
关节菱形形应力强度因子的研究
铆接在许多工业应用中是非常重要的。为了了解单排和双排铆钉搭接和对接的响应,已经开展了一些研究,重点是总疲劳寿命和残余应力评估。对于初始裂纹及其过程中的应力强度因子的研究很少。此外,关于菱形图案形成的节理的资料很少。目前的工作旨在通过对铆钉菱形图案的研究来弥合这一差距,重点关注带板中的SIF,因为当带厚度小于或等于板厚度时,它们会出现初始裂纹。所考虑的带板有六个关节,呈菱形,3-2-1。在不同节点位置诱发裂纹,利用有限元分析方法对应力强度因子随裂纹尺寸的变化规律进行了评价。针对实际兴趣的各种干扰水平进行了研究。确定了裂纹的最关键位置和最有利的干扰水平。确定了干扰的限制,超过该限制SIF会急剧增加。记录了干涉和邻近几何方面如孔和边界的综合影响。还进行了研究,以评估是否需要在所有关节位置进行均匀干扰。此外,为了模拟真实场景,在节点处诱导了几种随机干扰组合,并将SIF结果与均匀干扰值的结果进行了比较。最后,还研究了关节后节距变化的影响。
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