纳米结构介晶超材料中剪切模量与杨氏模量的比值异常高。

Unusually high ratio of shear modulus to Young's modulus in a nano-structured gyroid metamaterial.

机构信息

Department of Materials Science and Engineering, Korea University, Seoul, 136-713, South Korea.

出版信息

Sci Rep. 2017 Sep 5;7(1):10533. doi: 10.1038/s41598-017-10978-8.

DOI:10.1038/s41598-017-10978-8

PMID:28874740

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5585398/

Abstract

Unlike the constant nature of elastic coefficients of isotropic bulk materials, the Young's (E) and shear (μ) moduli of nano-structured (NS) gyroid metamaterials change with relative density (ρ), but at different rates depending on the cell size of the structure. These elastic behaviors displayed by E and μ cause crossover/inversion of these two moduli, such that μ of the NS gyroid metamaterials is greater than E for the structures with ρ < 0.23. This peculiar elastic behavior causes NS gyroid metamaterials to display high μ/E values (~~1.0), which are more than 250% larger than the typical values of the bulk material (~~0.38), indicating that the NS gyroid metamaterial, even if it is light, is resistant to shear deformation. Here, we report the results of molecular dynamics simulations performed to elucidate the reason for unusually high μ/E values in NS gyroid metamaterials.

摘要

与各向同性块状材料弹性系数的恒定性不同，纳米结构（NS）介晶的杨氏（E）和剪切（μ）模量会随相对密度（ρ）而变化，但变化速率取决于结构的单元尺寸。E 和 μ 表现出的这些弹性行为导致了这两个模量的交叉/反转，即对于 ρ < 0.23 的结构，NS 介晶的 μ 大于 E。这种特殊的弹性行为使得 NS 介晶的 μ/E 值很高（~~1.0），比块状材料的典型值（~~0.38）大 250%以上，这表明即使 NS 介晶很轻，它也能抵抗剪切变形。在这里，我们报告了为阐明 NS 介晶中 μ/E 值异常高的原因而进行的分子动力学模拟的结果。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a129/5585398/c97da24780fb/41598_2017_10978_Fig1_HTML.jpg

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纳米结构介晶超材料中剪切模量与杨氏模量的比值异常高。

Unusually high ratio of shear modulus to Young's modulus in a nano-structured gyroid metamaterial.

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