Mechanical performance and failure analysis of a fabric subjected to ballistic impact using multi-scale numerical modelling

In this paper, multi-scale numerical modelling analysis is proposed to study the ballistic responses of a Kevlar KM2 woven fabric. Three meso-microscopic multi-scale numerical models are conducted by varying the number of microscopic primary yarns in the impact zone from 2 to 10. In each model, we a...

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Veröffentlicht in:	Journal of composite materials 2023-03, Vol.57 (7), p.1331-1342
Hauptverfasser:	Pham, Quoc Hoan, Long, Chu Tuan, Kanit, Toufik, Imad, Abdellatif
Format:	Artikel
Sprache:	eng
Schlagworte:	Nonlinear Sciences
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container_end_page	1342
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container_title	Journal of composite materials
container_volume	57
creator	Pham, Quoc Hoan Long, Chu Tuan Kanit, Toufik Imad, Abdellatif
description	In this paper, multi-scale numerical modelling analysis is proposed to study the ballistic responses of a Kevlar KM2 woven fabric. Three meso-microscopic multi-scale numerical models are conducted by varying the number of microscopic primary yarns in the impact zone from 2 to 10. In each model, we analyse the evolution of the contact force, the projectile velocity and the fabric energies. An analysis of the failure modes of each configuration is also performed. Results of the three multi-scale models and a mesoscopic model are compared in order to find the optimal number of microscopic primary yarns to predict the fabric’s ballistic behaviour. It is highlighted that the multi-scale model consumes a reasonable computation cost. Furthermore, with the primary yarns modelled in the fibre scale, this model can fully describe the complex physical phenomena, such as fibre failure and the interaction between fibres, fibres and yarns, that occur during the impact.
doi_str_mv	10.1177/00219983231153956
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title	Mechanical performance and failure analysis of a fabric subjected to ballistic impact using multi-scale numerical modelling
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