Abstract
The natural Caprinae horn sheaths possess excellent mechanical properties due to the synergistic effects of the porous and corrugated lamellar structure. However, research on bioinspired designs based on this structure remains absent. In this work, we attempted to integrate hollow glass microspheres modified by silane coupling agents into A. pernyi silk fabric, and finally fabricate a horn sheath-inspired composite using the vacuum-assisted resin transfer molding. The impact strength of the horn sheath-inspired composite reaches up to 150 kJ m-2 with a low density of 1290 kg m-³. Fracture morphology analysis and finite element simulation confirmed the toughening mechanisms, including crack deflection and interfacial bonding due to the synergistic effects of the porous structure and the corrugated silk fabrics. This study provides a bioinspired strategy to lightweight and tough composites, with significant potential in impact-critical applications.
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