Hua Shi scite author profile

Hua Shi

2Publications

14Citation Statements Received

15Citation Statements Given

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University of Bath

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Damage resistance and damage tolerance of hybrid carbon-glass laminates

Rhead

Shi

Butler

2015

Composites Part A: Applied Science and Manufacturing

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The influence of impact energy and stacking sequence on the damage resistance and Compression After Impact (CAI) strength of hybrid Carbon and Glass Fibre Reinforced Plastic (CFRP and GFRP respectively) hybrid laminates is investigated. CAI tests demonstrate that, in comparison to fully CFRPlaminates, hybrid laminates show increases in structural efficiency of up to 51% for laminates subject to a 12J impact and 41% for those subject to an 18J impact. Laminates displaying the highest stresses at failure are those that exploit stacking sequences and GFRP content to prevent delaminations from forming close to the outer surface of the laminate during impact. This favourable damage morphology inhibits both sublaminate-buckling-driven delamination propagation and asymmetric laminate buckling failures.

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Damage Resistance and Damage Tolerance of Hybrid Carbon-Glass Laminates

Rhead

Shi

Butler

2011

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This paper explores the influence of impact energy and stacking sequence on the damage resistance and damage tolerance of hybrid Carbon Fiber Reinforced Plastic (CFRP) and Glass Fibre Reinforced Plastic (GFRP) hybrid laminates in order to establish their suitability as an alternative to CFRP laminates for use in aircraft structures. Compression after impact tests demonstrate that CFRP/GFRP hybrid laminates display increases in failure stress of up to 32% in comparison to laminates constructed entirely from CFRP. Laminates displaying the highest stresses at failure are those that exploit stacking sequence and GFRP content to prevent delamination from occurring close to the outer surface of the laminate during impact. This eliminates local sublaminate buckling and hence rules out failures due to delamination propagation. A switch to an anti-symmetric buckling mode is noted at low levels of stress in the CFRP baseline laminates subject to higher energy impacts. This mode switch did not occur in the hybrid designs. A previously developed analytical model for assessing damage tolerance of laminates that fail following local buckling induced delamination propagation is shown to be applicable to hybrid laminates.

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Hua Shi

Damage resistance and damage tolerance of hybrid carbon-glass laminates

Damage Resistance and Damage Tolerance of Hybrid Carbon-Glass Laminates

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