Journal
JOURNAL OF INDUSTRIAL TEXTILES
Volume 51, Issue 4_SUPPL, Pages 6065S-6086SPublisher
SAGE PUBLICATIONS INC
DOI: 10.1177/1528083720980467
Keywords
3D woven solid structure; analytical model; finite element method; impact energy
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Funding
- Ministry of Textiles, Government of India
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This study aims to understand and evaluate the response of 3D woven fabrics to ballistic forces. Analytical and numerical models were developed to determine the impact energy and evaluate the ballistic impact. The behavior, failure mechanisms, and energy dissipation of fabric under ballistic impact were analyzed and validated.
This study was carried out to understand and evaluate the response of 3 D woven fabrics upon the simulated ballistic forces. Under the low-velocity impact, analytical and numerical models were developed for determining the impact energy, which was used to evaluate the ballistic impact of projectile onto multiple-layered woven fabric panels based on the ballistic impact of single textile yarns. The behavior of primary and secondary yarns in a fabric under the ballistic impact was analyzed by both the models. The mechanisms of failure and energy dissipation of Kevlar fabric subjected to low-velocity impact were numerically investigated by using the ABAQUS platform as a tool of finite element method (FEM). The results obtained from numerical and analytical approaches were validated against experimental value which showed a good agreement.
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