机械超材料的韧性。

The toughness of mechanical metamaterials.

作者信息

Shaikeea Angkur Jyoti Dipanka, Cui Huachen, O'Masta Mark, Zheng Xiaoyu Rayne, Deshpande Vikram Sudhir

机构信息

Department of Engineering, University of Cambridge, Cambridge, UK.

Advanced Manufacturing and Metamaterials Laboratory, Department of Mechanical Engineering, Virginia Polytechnical Institute and State University, Blacksburg, VA, USA.

出版信息

Nat Mater. 2022 Mar;21(3):297-304. doi: 10.1038/s41563-021-01182-1. Epub 2022 Feb 7.

DOI:10.1038/s41563-021-01182-1

PMID:35132213

Abstract

Rapid progress in additive manufacturing methods has created a new class of ultralight mechanical metamaterials with extreme functional properties. Their application is ultimately limited by their tolerance to damage and defects, but an understanding of this sensitivity has remained elusive. Using metamaterial specimens consisting of millions of unit cells, we show that not only is the stress intensity factor, as used in conventional elastic fracture mechanics, insufficient to characterize fracture, but also that conventional fracture testing protocols are inadequate. Via a combination of numerical and asymptotic analysis, we extend the ideas of elastic fracture mechanics to truss-based metamaterials and develop a general test and design protocol. This framework can form the basis for fracture characterization in other discrete elastic-brittle solids where the notion of fracture toughness is known to break down.

摘要

增材制造方法的迅速发展创造了一类具有极端功能特性的新型超轻机械超材料。它们的应用最终受到其对损伤和缺陷耐受性的限制，但对这种敏感性的理解仍然难以捉摸。使用由数百万个单元胞组成的超材料样本，我们表明，不仅传统弹性断裂力学中使用的应力强度因子不足以表征断裂，而且传统的断裂测试方案也不够充分。通过数值分析和渐近分析相结合，我们将弹性断裂力学的概念扩展到基于桁架的超材料，并开发了一种通用的测试和设计方案。这个框架可以为其他离散弹性脆性固体的断裂表征奠定基础，在这些固体中，断裂韧性的概念已知会失效。

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机械超材料的韧性。

The toughness of mechanical metamaterials.

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机构信息

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