Author: Liu, Jingyu; Xu, Yanan; Yang, Hong; Liu, Yinong; Yarlagadda, Prasad Kdv; Yan, Cheng
Title: Investigation of failure mechanisms of nacre at macro and nano scales. Cord-id: mq5wecg6 Document date: 2020_8_1
ID: mq5wecg6
Snippet: Nacre is a natural composite featuring exceptional mechanical properties such as high strength and high toughness. Its unique structure is now universally applied in engineering bioinspired materials. On the other hand, it is still a technical challenge to investigate its interfacial strength and fracture mechanisms at micro or nano-scale. In this work, the interfacial strength and fracture mechanism of the 'brick-mortar' structure in nacre are investigated using micro-sized cantilever beam and
Document: Nacre is a natural composite featuring exceptional mechanical properties such as high strength and high toughness. Its unique structure is now universally applied in engineering bioinspired materials. On the other hand, it is still a technical challenge to investigate its interfacial strength and fracture mechanisms at micro or nano-scale. In this work, the interfacial strength and fracture mechanism of the 'brick-mortar' structure in nacre are investigated using micro-sized cantilever beam and bend samples. As compared to previous works, a high aragonite/biopolymer interfacial strength is observed (~298 MPa). The crack propagation path is investigated via experiment and finite element modelling and compared with the fracture mechanics analysis. It is confirmed that crack deflection to the aragonite/biopolymer interface contributes to a high overall toughness. This work provides a better understanding of the toughening mechanism in nacre and other bioinspired composites.
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