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Numerical shape, thickness and stacking sequence optimisation and experimental study of hybrid composite plates under in-plane shear loading

Mahdi Damghani, Jason Matthews, Adrian Murphy, Carol Featherston

2023Structures19 citationsDOIOpen Access PDF

Abstract

Shape, thickness and stacking sequence optimisation of a damage tolerant hybrid (GFRP-CFRP) composite laminate is performed using the commercial Optistruct solver. The results of the optimisation study are compared to both a benchmark non-damage tolerant CFRP laminate (without protective surface GFRP plies known as type 1 laminate) and a damage tolerant traditionally optimised hybrid CFRP-GFRP laminate (having X shape CFRP plies known as type 2 laminate), designed and tested in a previous study. The optimised laminate is manufactured using three different manufacturing techniques. The experimental buckling and post-buckling performance of the manufactured laminates are investigated. The optimised hybrid laminate is approximately 8% heavier than the type 1 but 17% lighter than type 2, but with the benefit of protective surface GFRP plies in favour of a damage tolerant design as shown in a previous study. Both numerical and experimental buckling and post-buckling performance studies show that the optimised laminates demonstrate higher pre-buckling stiffness compared to the type 1 design. However, the experimental buckling and failure/collapse loads, unlike the numerically predicted loads, are 24.31% and 26.70% lower, respectively. This is due to the significant number of ply drop-offs in the hybrid laminate design, and hence geometric imperfections and stress concentration effects at these locations leading to early buckling and failure in the post-buckling region.

Topics & Concepts

BucklingFibre-reinforced plasticMaterials scienceStructural engineeringComposite numberComposite materialStiffnessComposite laminatesStackingDamage toleranceShear (geology)EngineeringPhysicsNuclear magnetic resonanceComposite Structure Analysis and OptimizationTopology Optimization in EngineeringMechanical Behavior of Composites
Numerical shape, thickness and stacking sequence optimisation and experimental study of hybrid composite plates under in-plane shear loading | Litcius