Chris T James scite author profile

Chris T James

2Publications

9Citation Statements Received

51Citation Statements Given

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Loughborough University

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Experimental and numerical investigation of the effect of asymmetry on the residual strength of a composite sandwich panel

James

Cunningham

Watson

2015

Jnl of Sandwich Structures & Materials

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Asymmetric sandwich panels with skins of differing thickness are subjected to various degrees of damage via quasi-static indentation before compressive loading to failure. These are compared with panels with skins of equal thickness. The experiments show that the asymmetric panels experience an improvement in strength with small amounts of indentation compared with undamaged asymmetric panels, and for more severe damage, show greater residual strength than the symmetric panels. The two configurations are numerically modelled using Abaqus, including inter-and intra-laminar damage, and core crushing. The strength predictions from the models agree well with the experiments.

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Numerical modelling of the compression-after-impact performance of a composite sandwich panel

James

Watson

Cunningham

2015

Jnl of Sandwich Structures & Materials

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A numerical model for the quasi-static indentation and compression-after-impact behaviour of a composite sandwich panel is presented, using cohesive surfaces for inter-laminar damage prediction. Intra-laminar damage and core crushing is also included. The models show generally good agreement with experimental results for residual strength, performing best when two cohesive surfaces are used in the impacted skin, but tend to over-estimate the undamaged panel strength. Damage extent predictions from the indentation phase of the analysis are often quite poor, but do not necessarily correlate with the accuracy of the strength estimates. The model provides a promising basis for further development.

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Chris T James

Experimental and numerical investigation of the effect of asymmetry on the residual strength of a composite sandwich panel

Numerical modelling of the compression-after-impact performance of a composite sandwich panel

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