Novel patch shape design to repair π/4 quasi-isotropic E-glass/epoxy laminate under uniaxial tensile loading condition

Gopalakrishnan, Manoj; Muthu, Selvaraji; Subramanian, Ramanathan; Sabarinathan, C.; Santhanakrishnan, R.

doi:10.1177/0967391118817405

Polymers and Polymer Composites

2018

DOI: 10.1177/0967391118817405

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Novel patch shape design to repair π/4 quasi-isotropic E-glass/epoxy laminate under uniaxial tensile loading condition

Manoj Gopalakrishnan¹,

Selvaraji Muthu²,

Ramanathan Subramanian

et al.

Abstract: The entitled technical subject in its comprehensive and broadly viewed study is presented by stating that the prevailing glass fiber–reinforced plastic composites play a vital role in replacing the metallic structures in automotive, aerospace, and marine applications and their more usage necessitates the better understanding of such structure’s damage and effective repair practices of the same. In the course of repairing the composite structures, optimum usage of patch material helps to maintain the original s… Show more

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2024

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Damage simulation and experimental analysis of the repaired composite laminates with mortise‐and‐tenon‐lap joint

Wang,

Han,

Jia

et al. 2024

Polymer Composites

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In this paper, a mortise‐and‐tenon structural design was introduced into composite maintenance to create a new type of joint between the repair patches and the parent structure, where both the patches and the structure were carbon fiber composites. Effects of different joints, including step‐lap and mortise‐and‐tenon‐lap joints, on the bending failure of the repaired composites were simulated and then verified through experiments. Results showed that compared with the traditional step‐lap method, the mortise‐and‐tenon connection changed the direction of damage extension from a simple single path to complex multiple paths, which effectively inhibited the damage expansion and enhanced the structural damage tolerance. Therefore, the flexural strength of the repair with the new joint was improved by 19.9%. However, the mortise‐and‐tenon‐lap joint resulted in a poor moisture‐heat resistance of the repaired structure. Interestingly, although the flexural strength of the mortise‐and‐tenon repair decreased by 10.45% after the hygrothermal treatment, it was still higher than that of the step‐lap repair without hygrothermal treatment.Highlights A novel joint, mortise‐and‐tenon, was introduced into composite maintenance. Damage extended along multiple paths in the new joint and was inhibited. Flexural strength of the repair was higher than that of traditional step‐lap repair.

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Damage simulation and experimental analysis of the repaired composite laminates with mortise‐and‐tenon‐lap joint

Wang,

Han,

Jia

et al. 2024

Polymer Composites

View full text Add to dashboard Cite

show abstract

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Novel patch shape design to repair π/4 quasi-isotropic E-glass/epoxy laminate under uniaxial tensile loading condition

Cited by 1 publication

References 35 publications

Damage simulation and experimental analysis of the repaired composite laminates with mortise‐and‐tenon‐lap joint

Damage simulation and experimental analysis of the repaired composite laminates with mortise‐and‐tenon‐lap joint

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