Shape Effect of Surface Defects on Nanohardness by Quasicontinuum Method Article Swipe

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Zhongli Zhang , Can Wang , Xiaowen Hu , Yushan Ni ·

YOU? · · 2020 · Open Access · · DOI: https://doi.org/10.3390/mi11100909

Nanoindentation on a platinum thin film with surface defects in a rectangular shape and triangular shape was simulated using the quasicontinuum method to study the shape effect of surface defects on nanohardness. The results show that the nanohardness of thin film with triangular defects is basically larger than those with rectangular defects, which is closely related to the height of the surface defects at the boundary near to the indenter. Moreover, the triangular defect might have an enhancement effect on nanohardness by a certain size of the defects and the boundary orientation of the defect, where such an enhancement effect increases as the defect grows. Furthermore, the nanohardness decreases when the defect is folded from wide to narrow in the same atom cavity, and particularly expresses a more obvious drop when the height of the defects increases. In addition, larger sizes of the rectangular defect induce more reduction in nanohardness, while the nanohardness of the triangular surface defect is sensitive to the periodic arrangement of atoms changed by the boundary orientation of the defect, which is well explained and demonstrated by the calculation formula theory of necessary load for dislocation emission.

Related Topics

Materials Science

Crystallographic Defect

Concepts

Nanoindentation Materials science Dislocation Surface (topology) Drop (telecommunication) Crystallographic defect Composite material Geometry Crystallography Chemistry Mathematics Computer science Telecommunications

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Type: article
Language: en
Landing Page: https://doi.org/10.3390/mi11100909
PDF: https://www.mdpi.com/2072-666X/11/10/909/pdf?version=1601462501
OA Status: gold
Cited By: 4
References: 35
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DOI: https://doi.org/10.3390/mi11100909

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Title: Shape Effect of Surface Defects on Nanohardness by Quasicontinuum Method

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Type: article

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Language: en

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Publication year: 2020

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Publication date: 2020-09-30

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Authors: Zhongli Zhang, Can Wang, Xiaowen Hu, Yushan Ni

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Landing page: https://doi.org/10.3390/mi11100909

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Concepts: Nanoindentation, Materials science, Dislocation, Surface (topology), Drop (telecommunication), Crystallographic defect, Composite material, Geometry, Crystallography, Chemistry, Mathematics, Computer science, Telecommunications

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Cited by: 4

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