Energy absorption of composite 3D-printed fish scale inspired protective structures subjected to low-velocity impact
Author:
Funder
University of New South Wales
National Computational Infrastructure
Tromsø Forskningsstiftelse
Publisher
Elsevier BV
Reference40 articles.
1. Armour: Materials, Theory, and Design;Hazell,2022
2. Biomimetic armour design strategies for additive manufacturing: a review;Islam;Mater. Des.,2021
3. Structural and mechanical properties of fish scales for the bio-inspired design of flexible body armors: a review;Rawat;Acta Biomater.,2021
4. Insights into the high-velocity impact behaviour of bio-inspired composite laminates with helicoidal lay-ups;Wang;Polym. Test.,2021
5. Fish scales and their biomimetic applications;Yaseen;Frontiers in Materials,2021
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