Stuart McCallum scite author profile

This study investigates the influence of macroscale skin-core residual stress and cooling rate on the impact response of aerospace grade carbon fibre/polyphenylenesulphide (CF/PPS). Numerical simulations are developed which analyse the thermal shrinkage and residual stress development of unidirectional (UD) lay-up configurations. Macroscale skin-core residual stresses are then incorporated into low-velocity impact simulations based on an orthotropic elastic material model. Interlaminar delamination is modelled using a bilinear cohesive traction–separation law, and intralaminar failure is modelled using the Chang–Chang strength-based failure criterion. The simulation results are compared with the results of drop tower impact tests showing qualitative agreement in terms of maximum impact force and delamination. The results of this work highlight the importance of cooling rate on the interlaminar delamination and intralaminar failure of CF/PPS.

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Assessing the application of Hi-Lok® fasteners for the repair of open-hole and delaminated CFRP

McCallum

Hoshi

Iwahori

et al. 2014

Composites Part A: Applied Science and Manufacturing

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The influence of preload and boundary conditions on pre-damaged composite plates subject to soft-body impact

McCallum

2015

Materials & Design

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Experimental, analytical and computational studies in resin transfer moulding

McCallum¹

2021

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Stuart McCallum

Development of an advanced multi-material bird-strike model using the smoothed particle hydrodynamics method

The influence of skin-core residual stress and cooling rate on the impact response of carbon fibre/polyphenylenesulphide

Assessing the application of Hi-Lok® fasteners for the repair of open-hole and delaminated CFRP

The influence of preload and boundary conditions on pre-damaged composite plates subject to soft-body impact

Experimental, analytical and computational studies in resin transfer moulding

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