Damage progression and failure of single-lap thin-ply laminated composite bolted joints under quasi-static loading

材料科学 分层(地质) 复合材料 螺栓连接 复合数 复合材料层合板 方位(导航) 环氧树脂 最终失效 变形(气象学) 灾难性故障 结构工程 极限抗拉强度 有限元法 古生物学 工程类 生物 构造学 地图学 地理 俯冲
作者
Yuejie Cao,Zengqiang Cao,Y. Zhao,Duquan Zuo,T.E. Tay
出处
期刊:International Journal of Mechanical Sciences [Elsevier]
卷期号:170: 105360-105360 被引量:57
标识
DOI:10.1016/j.ijmecsci.2019.105360
摘要

Composite bolted joints are widely used on primary and secondary load-bearing structures of aircrafts. However, investigating the damage progression and failure of composite bolted joints under high bearing loads is challenging due to the geometric, contact and material nonlinearities. In this work, an extensive experimental study has been carried out to investigate and understand the damage evolution and failure of single-lap thin-ply laminated composites bolted joints under quasi-static loading. Quasi-isotropic carbon/epoxy laminates with stacking sequence [45/0/-45/90]4s were selected for fabricating the test specimen. The specimens were observed using X-ray computed tomography (CT) scanning and SEM imaging at different stages of the loading process to evaluate internal damage and deformation characteristics. The results indicate that the bearing failure of composite bolted joints can be interpreted as an accumulated damage process with local compressing, and mainly includes four stages: damage initiation, damage evolution, non-linear softening and catastrophic failure. The major failure modes of the thin-ply laminates are found to be similar to those of traditional thickness composite, including fiber breakage, matrix cracking, delamination, fiber kinking and fiber-matrix splitting. However, the major difference is that the delamination growth in the bearing area in thin-ply composites is suppressed compared with the traditional thickness composites. Therefore, the obtained experimental data provides valuable information for developing mechanism-based failure models of single-lap thin-ply composite bolted joints.
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