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Discontinuous fibrous Bouligand architecture enabling formidable fracture resistance with crack orientation insensitivity

Kaijin Wu, Zhaoqiang Song, Shuaishuai Zhang, Yong Ni, Shengqiang Cai, Xinglong Gong, Linghui He, Shu‐Hong Yu

2020Proceedings of the National Academy of Sciences173 citationsDOIOpen Access PDF

Abstract

Bioinspired architectural design for composites with much higher fracture resistance than that of individual constituent remains a major challenge for engineers and scientists. Inspired by the survival war between the mantis shrimps and abalones, we design a discontinuous fibrous Bouligand (DFB) architecture, a combination of Bouligand and nacreous staggered structures. Systematic bending experiments for 3D-printed single-edge notched specimens with such architecture indicate that total energy dissipations are insensitive to initial crack orientations and show optimized values at critical pitch angles. Fracture mechanics analyses demonstrate that the hybrid toughening mechanisms of crack twisting and crack bridging mode arising from DFB architecture enable excellent fracture resistance with crack orientation insensitivity. The compromise in competition of energy dissipations between crack twisting and crack bridging is identified as the origin of maximum fracture energy at a critical pitch angle. We further illustrate that the optimized fracture energy can be achieved by tuning fracture energy of crack bridging, pitch angles, fiber lengths, and twist angles distribution in DFB composites.

Topics & Concepts

Fracture toughnessMaterials scienceFracture mechanicsFracture (geology)Bridging (networking)Composite materialMicrostructureArchitectureStructural engineeringToughnessComputer scienceEngineeringVisual artsArtComputer networkCalcium Carbonate Crystallization and InhibitionBone Tissue Engineering MaterialsPaleontology and Evolutionary Biology
Discontinuous fibrous Bouligand architecture enabling formidable fracture resistance with crack orientation insensitivity | Litcius