Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Bio-inspired nacre and helicoidal composites: From structure to mechanical applications
https://orcid.org/0000-0003-0354-7071
Highlights Critical review on nacre and helicoidal inspired composite structures. Structural application of nacre and helicoidal inspired laminates. Helicoidal laminates can possibly replace conventional layup configuration. Structure of the nacre and helicoid is also studied.
Abstract Researchers and engineers have been fascinated by the way weak organic and inorganic components naturally combine to create strong and long-lasting structures for the past few decades. The helicoidal fiber-reinforced composite structure found in the cuticle that forms the skeleton of an arthropod and the nacre structure based on the brick-and-mortar architecture composing the inner layer of several mollusk shells are two of the most studied composite-based structures for drawing inspiration from and using the same to modify man-made materials. The structure, formation, and mechanical properties of the nacre- and cuticle-based bio-inspired composites are given in detail. The current study also examines how brick-and-mortar and helicoidal laminated bio-inspired composites are used structurally. The present review article will serve as a benchmark for future studies in the same area.
Bio-inspired nacre and helicoidal composites: From structure to mechanical applications
https://orcid.org/0000-0003-0354-7071
Highlights Critical review on nacre and helicoidal inspired composite structures. Structural application of nacre and helicoidal inspired laminates. Helicoidal laminates can possibly replace conventional layup configuration. Structure of the nacre and helicoid is also studied.
Abstract Researchers and engineers have been fascinated by the way weak organic and inorganic components naturally combine to create strong and long-lasting structures for the past few decades. The helicoidal fiber-reinforced composite structure found in the cuticle that forms the skeleton of an arthropod and the nacre structure based on the brick-and-mortar architecture composing the inner layer of several mollusk shells are two of the most studied composite-based structures for drawing inspiration from and using the same to modify man-made materials. The structure, formation, and mechanical properties of the nacre- and cuticle-based bio-inspired composites are given in detail. The current study also examines how brick-and-mortar and helicoidal laminated bio-inspired composites are used structurally. The present review article will serve as a benchmark for future studies in the same area.
Bio-inspired nacre and helicoidal composites: From structure to mechanical applications
https://orcid.org/0000-0003-0354-7071
Highlights Critical review on nacre and helicoidal inspired composite structures. Structural application of nacre and helicoidal inspired laminates. Helicoidal laminates can possibly replace conventional layup configuration. Structure of the nacre and helicoid is also studied.
Abstract Researchers and engineers have been fascinated by the way weak organic and inorganic components naturally combine to create strong and long-lasting structures for the past few decades. The helicoidal fiber-reinforced composite structure found in the cuticle that forms the skeleton of an arthropod and the nacre structure based on the brick-and-mortar architecture composing the inner layer of several mollusk shells are two of the most studied composite-based structures for drawing inspiration from and using the same to modify man-made materials. The structure, formation, and mechanical properties of the nacre- and cuticle-based bio-inspired composites are given in detail. The current study also examines how brick-and-mortar and helicoidal laminated bio-inspired composites are used structurally. The present review article will serve as a benchmark for future studies in the same area.
Bio-inspired nacre and helicoidal composites: From structure to mechanical applications
Sharma, Anshu (Autor:in) / Shukla, Neeraj Kumar (Autor:in) / Belarbi, Mohamed-Ouejdi (Autor:in) / Abbas, Mohamed (Autor:in) / Garg, Aman (Autor:in) / Li, Li (Autor:in) / Bhutto, Javed (Autor:in) / Bhatia, Anmol (Autor:in)
Thin-Walled Structures ; 192
27.08.2023
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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Damage tolerance of bio-inspired helicoidal composites under low velocity impact
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Realising damage-tolerant nacre-inspired CFRP
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