A MICROSTRUCTURE-BASED HYPERELASTIC MODEL FOR OPEN-CELL SOLIDS

Mihai L. Angela; Wyatt Hayley; Goriely Alain

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A MICROSTRUCTURE-BASED HYPERELASTIC MODEL FOR OPEN-CELL SOLIDS

机译：用于开放式固体的基于微粒性高速模型

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Mesoscopic continuum hyperelastic models for open-cell solids subject to large elastic deformations are derived from the architecture of the cellular body and the microscopic responses of the cell walls. These models are valid for general structures, with randomly oriented cell walls, made from an arbitrary isotropic nonlinear hyperelastic material, and subject to finite triaxial stretches. Their analyses provide global descriptors of the cellular structure, such as nonlinear stretch and shear moduli, and Poisson's ratio. Comparisons with numerical simulations show that the mesoscopic models capture well the mechanical responses under large strain deformations of three-dimensional periodic structures and of two-dimensional honeycombs made from a neo-Hookean material.

机译：介于弹性变形受到大弹性变形的开放电池固体的介观连续型模型源自蜂窝体的架构和细胞壁的微观反应。这些型号对一般结构有效，具有随机取向的细胞壁，由任意各向同性非线性超弹性材料制成，并受限于有限三轴延伸。他们的分析提供了蜂窝结构的全局描述符，例如非线性拉伸和剪切模量和泊松比。具有数值模拟的比较表明，介观模型在三维周期性结构的大应变变形和由新卷绕材料制成的二维蜂窝的大应变变形下捕获机械响应。

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来源
《SIAM Journal on Applied Mathematics》 |2017年第4期|共20页
作者
Mihai L. Angela; Wyatt Hayley; Goriely Alain;
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作者单位

Cardiff Univ Sch Math Senghennydd Rd Cardiff CF24 4AG S Glam Wales;

Cardiff Univ Sch Math Senghennydd Rd Cardiff CF24 4AG S Glam Wales;

Univ Oxford Math Inst Woodstock Rd Oxford OX2 6GG England;

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原文格式 PDF
正文语种 eng
中图分类数学;
关键词
cellular solids; microstructural behavior; constitutive modelling; open cells; hyper elastic material; large strain deformation;

机译：细胞固体;微观结构;本构型建模;开放细胞;超弹性材料;大应变变形;

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专利

1. A MICROSTRUCTURE-BASED HYPERELASTIC MODEL FOR OPEN-CELL SOLIDS [J] . Mihai L. Angela, Wyatt Hayley, Goriely Alain SIAM Journal on Applied Mathematics . 2017,第4期

机译：用于开放式固体的基于微粒性高速模型
2. Open-cell cellular solids: A constitutive equation for hyperelasticity with deformation induced anisotropy [J] . af Segerstad PH, Toll S International Journal of Solids and Structures . 2008,第7a8期

机译：开孔多孔固体：具有变形诱导各向异性的超弹性本构方程
3. Experimental characterization and hyperelastic constitutive modeling of open-cell elastomeric foams [J] . Landauer Alexander K., Li Xiuqi, Franck Christian, Journal of the Mechanics and Physics of Solids . 2019,第Deca期

机译：开孔弹性体泡沫的实验表征和超弹性本构模型
4. A generalized polyconvex hyperelastic model for anisotropic solids [C] . M. ITSKOV, A. E. EHRET IASME/WSEAS International Conference on Continuum Mechanics . 2007

机译：各向异性固体的广义聚锥超弹性模型
5. The mechanics of open-cell solid foams: Modelling, simulation, and experiment. [D] . Wang, Yu. 2001

机译：开孔固体泡沫的力学：建模，仿真和实验。
6. Microstructure-based hyperelastic models for closed-cell solids [O] . L. Angela Mihai, Hayley Wyatt, Alain Goriely -1

机译：基于微结构的闭孔固体超弹性模型
7. A microstructure-based hyperelastic model for open-cell solids [O] . Mihai, LA, Wyatt, H, Goriely, A 2017

机译：基于微结构的开孔固体超弹性模型

A MICROSTRUCTURE-BASED HYPERELASTIC MODEL FOR OPEN-CELL SOLIDS

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