An experimental study on the failure and enhancement mechanism of bolt-strengthening GFRP T-joint subjected to tensile loading

The aim of this article is to investigate the failure and enhancement mechanism of bolt-strengthening glass fiber-reinforced polymer (GFRP) T-joints under quasi-static tension. One-step molding technology based on the vacuum-assisted resin infusion process is carried out to fabricate the GFRP T-join...

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Bibliographic Details
Published in:Science and engineering of composite materials 2022-12, Vol.29 (1), p.466-472
Main Authors: You, Peiyu, Chen, Chen, Wu, Ye, Zhang, Baohua, Tang, Xiaojun, Zhu, Dalei, Liu, Zhenxue, Ma, Yunsheng
Format: Article
Language:English
Subjects:
Bearing capacity
bolt reinforcement
Bolted joints
Delamination
failure mechanism
Failure mechanisms
Fiber reinforced polymers
GFRP T-joints
Glass fiber reinforced plastics
Molding (process)
optimizing on enhancement location
Strengthening
Tee joints
Tensile tests
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Summary:The aim of this article is to investigate the failure and enhancement mechanism of bolt-strengthening glass fiber-reinforced polymer (GFRP) T-joints under quasi-static tension. One-step molding technology based on the vacuum-assisted resin infusion process is carried out to fabricate the GFRP T-joints structures. Then, a special fixture and constraint condition are set up to take the quasi-static tensile test with high reliability. Moreover, it is demonstrated that the T-joints structures may decrease their bearing capacity, resulting in interlaminar delamination at the corner region. Further, to strengthen the T-joints, the bolts are employed to effectively prevent the initiation and propagation of interlaminar delamination in the tensile loading. At the same time, as their enhancement and failure mechanisms are revealed deeply, the strengthening method is optimized as well.
ISSN:2191-0359
0792-1233
2191-0359
DOI:10.1515/secm-2022-0169