Sérgio Costa scite author profile

This paper details a complete crush model for composite materials with focus on shear dominated crushing under a three-dimensional stress state. The damage evolution laws and final failure strain conditions are based on data extracted from shear experiments. The main advantages of the current model include the following: no need to measure the fracture toughness in shear and transverse compression, mesh objectivity without the need for a regular mesh and finite element characteristic length, a pressure dependency of the nonlinear shear response, accounting for load reversal and some orthotropic effects (making the model suitable for noncrimp fabric composites). The model is validated against a range of relevant experiments, namely a through-the-thickness compression specimen and a flat crush coupon with the fibres oriented at 45° and 90° to the load. Damage growth mechanisms, orientation of the fracture plane, nonlinear evolution of Poisson's ratio and energy absorption are accurately predicted.

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Use of enriched shell elements compared to solid elements for modelling delamination growth during impact on composites

McElroy

André

Goode

et al. 2021

Composite Structures

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Sérgio Costa

A physically based model for kink-band growth and longitudinal crushing of composites under 3D stress states accounting for friction

Development and validation of a finite deformation fibre kinking model for crushing of composites

Mesh objective implementation of a fibre kinking model for damage growth with friction

Improvement and validation of a physically based model for the shear and transverse crushing of orthotropic composites

Use of enriched shell elements compared to solid elements for modelling delamination growth during impact on composites

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