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Main Authors: Chandrasekaran, Rajesh, Itskov, Mikhail, Rege, Ameya
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.05112
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author Chandrasekaran, Rajesh
Itskov, Mikhail
Rege, Ameya
author_facet Chandrasekaran, Rajesh
Itskov, Mikhail
Rege, Ameya
contents Nanoporous materials are characterized by their complex porous morphology illustrated by the presence of a solid network and voids. The fraction of these voids is characterized by the porosity of the structure, which influences the bulk mechanical properties of the material. Most literature on the mechanics of porous materials has focused on the density-dependence of their elastic properties. In addition to porosity, other pore characteristics, namely pore-size and shape described by the pore-size distribution, and pore-wall size and shape, also influence the bulk response of these materials. In this work, the mechanical structure-property relation of nanoporous materials is studied under large deformations using a computational framework. The interdependent microstructural parameters are identified. After a successful correlation between the synthesis and microstructural parameters, the synthesis of porous materials can be guided and optimized by controlling these parameters.
format Preprint
id arxiv_https___arxiv_org_abs_2410_05112
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Influence of the microstructure on the mechanical behavior of nanoporous materials under large strains
Chandrasekaran, Rajesh
Itskov, Mikhail
Rege, Ameya
Materials Science
Computational Physics
Nanoporous materials are characterized by their complex porous morphology illustrated by the presence of a solid network and voids. The fraction of these voids is characterized by the porosity of the structure, which influences the bulk mechanical properties of the material. Most literature on the mechanics of porous materials has focused on the density-dependence of their elastic properties. In addition to porosity, other pore characteristics, namely pore-size and shape described by the pore-size distribution, and pore-wall size and shape, also influence the bulk response of these materials. In this work, the mechanical structure-property relation of nanoporous materials is studied under large deformations using a computational framework. The interdependent microstructural parameters are identified. After a successful correlation between the synthesis and microstructural parameters, the synthesis of porous materials can be guided and optimized by controlling these parameters.
title Influence of the microstructure on the mechanical behavior of nanoporous materials under large strains
topic Materials Science
Computational Physics
url https://arxiv.org/abs/2410.05112