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Asymmetric stacking patch for debonding suppression in single-sided patch repair of composite structures

Kohei Hashimoto, Shigeki Yashiro, Sota Onodera, Kazuki Ryuzono

2025Composite Structures10 citationsDOIOpen Access PDF

Abstract

With the increasing use of composite structures, a simple and effective repair method is needed to enhance operational efficiency. While conventional single-sided patch repairs are straightforward, they are prone to debonding due to secondary bending deformation, leading to low post-repair strength. This study proposes a single-sided patch with an asymmetric lay-up designed to suppress debonding by utilizing coupled tensile-bending deformation. The stacking sequence of the patches was optimized using a genetic algorithm to minimize the adhesive’s expansion strain energy density. The optimal stacking sequence generates bending deformation with curvature opposite to the secondary bending observed under tensile loading in a patch-repaired plate. This discrepancy in bending deformation alleviates the hydrostatic stress in the adhesive at the patch edges and reduces the contribution of Mode I to patch debonding. Tensile tests using optimized patches demonstrated the debonding suppression mechanism, showing that the onset strain for debonding improved due to material failure occurring in the base CFRP laminate

Topics & Concepts

StackingComposite numberStructural engineeringMaterials scienceComposite materialEngineeringPhysicsNuclear magnetic resonanceMechanical Behavior of CompositesStructural Response to Dynamic LoadsStructural Analysis and Optimization
Asymmetric stacking patch for debonding suppression in single-sided patch repair of composite structures | Litcius