机械超材料中的断裂和尺寸效应

IF 5 2区 工程技术 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of The Mechanics and Physics of Solids Pub Date : 2024-09-10 DOI:10.1016/j.jmps.2024.105860
J. Ulloa , M.P. Ariza , J.E. Andrade , M. Ortiz
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引用次数: 0

摘要

我们采用变分法来评估精细超材料的渐近行为与细胞尺寸的函数关系。在零阶,超材料表现为具有位移和旋转自由度的微极性连续体,但表现出线性弹性断裂力学缩放,因此没有尺寸效应。在更高阶的情况下,超材料结构的整体能量学可以通过Γ-展开方法对零阶连续性问题的求解进行明确表征。我们提出了八面体框架二阶修正的明确表达式。作为应用,我们评估了双悬臂八面体试样的二阶顺应性,并利用该结果阐明了试样表观韧性与单元尺寸的关系。分析预测超材料晶格的离散性可有效屏蔽裂纹尖端,我们称之为晶格屏蔽机制。该理论特别预测了反屏蔽,即越粗则越弱,这与最近的实验观察结果一致。
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Fracture and size effect in mechanical metamaterials

We resort to variational methods to evaluate the asymptotic behavior of fine metamaterials as a function of cell size. To zeroth order, the metamaterial behaves as a micropolar continuum with both displacement and rotation degrees of freedom, but exhibits linear-elastic fracture mechanics scaling and therefore no size effect. To higher order, the overall energetics of the metastructure can be characterized explicitly in terms of the solution of the zeroth-order continuum problem by the method of Γ-expansion. We present explicit expressions of the second-order correction for octet frames. As an application, we evaluate the compliance of double-cantilever octet specimens to second order and use the result to elucidate the dependence of the apparent toughness of the specimen on cell size. The analysis predicts the discreteness of the metamaterial lattice to effectively shield the crack-tip, a mechanism that we term lattice shielding. The theory specifically predicts anti-shielding, i. e., coarser is weaker, in agreement with recent experimental observations.

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来源期刊
Journal of The Mechanics and Physics of Solids
Journal of The Mechanics and Physics of Solids 物理-材料科学:综合
CiteScore
9.80
自引率
9.40%
发文量
276
审稿时长
52 days
期刊介绍: The aim of Journal of The Mechanics and Physics of Solids is to publish research of the highest quality and of lasting significance on the mechanics of solids. The scope is broad, from fundamental concepts in mechanics to the analysis of novel phenomena and applications. Solids are interpreted broadly to include both hard and soft materials as well as natural and synthetic structures. The approach can be theoretical, experimental or computational.This research activity sits within engineering science and the allied areas of applied mathematics, materials science, bio-mechanics, applied physics, and geophysics. The Journal was founded in 1952 by Rodney Hill, who was its Editor-in-Chief until 1968. The topics of interest to the Journal evolve with developments in the subject but its basic ethos remains the same: to publish research of the highest quality relating to the mechanics of solids. Thus, emphasis is placed on the development of fundamental concepts of mechanics and novel applications of these concepts based on theoretical, experimental or computational approaches, drawing upon the various branches of engineering science and the allied areas within applied mathematics, materials science, structural engineering, applied physics, and geophysics. The main purpose of the Journal is to foster scientific understanding of the processes of deformation and mechanical failure of all solid materials, both technological and natural, and the connections between these processes and their underlying physical mechanisms. In this sense, the content of the Journal should reflect the current state of the discipline in analysis, experimental observation, and numerical simulation. In the interest of achieving this goal, authors are encouraged to consider the significance of their contributions for the field of mechanics and the implications of their results, in addition to describing the details of their work.
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