Multiscale Simulation of Surface Defects Influence Nanoindentation by a Quasi-Continuum Method Article Swipe

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Zhongli Zhang , Yushan Ni , Jinming Zhang , Can Wang , Kun Jiang , Xuedi Ren ·

YOU? · · 2018 · Open Access · · DOI: https://doi.org/10.3390/cryst8070291

Microscopic properties of nanocrystal aluminum thin film have been investigated using the quasicontinuum method in order to study the influence of surface defects in nanoindentation. Various distances between the surface defect and indenter have been taken into account. The results show that as the distance between the pit and indenter increases, the nanohardness increases in a wave pattern associated with a cycle of three atoms, which is closely related to the crystal structure of periodic atoms arrangement on {1 1 1} atomic close-packed planes of face-centered cubic metal; when the adjacent distance between the pit and indenter is more than 16 atomic spacing, there is almost no effect on nanohardness. In addition, the theoretical formula for the necessary load for elastic-to-plastic transition of Al film has been modified with the initial surface defect size, which may contribute to the investigation of material property with surface defects.

Related Topics

Materials Science

Aluminium

Crystal (Programming Language)

Crystallographic Defect

Composite Material

Crystallography

Condensed Matter Physics

Concepts

Nanoindentation Materials science Cubic crystal system Nanocrystal Surface (topology) Aluminium Crystal (programming language) Crystallographic defect Nanoscopic scale Composite material Crystallography Condensed matter physics Nanotechnology Geometry Chemistry Physics Programming language Mathematics Computer science

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Type: article
Language: en
Landing Page: https://doi.org/10.3390/cryst8070291
PDF: https://www.mdpi.com/2073-4352/8/7/291/pdf?version=1531993804
OA Status: gold
Cited By: 7
References: 29
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DOI: https://doi.org/10.3390/cryst8070291

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Title: Multiscale Simulation of Surface Defects Influence Nanoindentation by a Quasi-Continuum Method

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Language: en

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Publication year: 2018

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Publication date: 2018-07-14

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Authors: Zhongli Zhang, Yushan Ni, Jinming Zhang, Can Wang, Kun Jiang, Xuedi Ren

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Landing page: https://doi.org/10.3390/cryst8070291

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Concepts: Nanoindentation, Materials science, Cubic crystal system, Nanocrystal, Surface (topology), Aluminium, Crystal (programming language), Crystallographic defect, Nanoscopic scale, Composite material, Crystallography, Condensed matter physics, Nanotechnology, Geometry, Chemistry, Physics, Programming language, Mathematics, Computer science

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Cited by: 7

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