1. Experimental study on the low-velocity impact response of braided composite panel: Effect of stacking sequence.
- Author
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Wu, Zhenyu, Wu, Chengjian, Liu, Yisheng, Cheng, Xiaoying, and Hu, Xudong
- Subjects
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BRAIDED structures , *LAMINATED materials , *IMPACT response , *FIBER orientation , *ARCHITECTURAL design , *FAILURE mode & effects analysis - Abstract
Braided composite laminates allow a reinforcement architecture design method of varying ply-to-ply braided structure instead of rotating fiber orientation in traditional unidirectional laminates. The stacking sequence sensitivities of braided laminates subjected to low-velocity impact were experimentally studied. Uniform ([±45° 6 ]) and non-uniform ([±30° 2 /±45° 2 /±60° 2 ]) architectures were designed to evaluate the effect of braided structure on impact performance. In addition, non-uniform laminate was impacted on both sides to identify the role of impact side on the failure mode. Quasi-static indentation was conducted to understand the damage initiation and propagation of braided laminates. The experimental results show that braided ply with high crimp level in impact side induced the main cracks along the load-carrying yarn, causing that the laminate failed in a kink-band dominated mode. For braided ply with low crimp level, a micro-buckling damage was found in the impact side, leading to the delamination dominated failure mode. It was also found that uniform braided laminate presents inferior impact resistance with respect to lower peak load and more concentrated damage because the kink-band can propagate into the specimen along braiding yarn easily. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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