Anomalous Surface Deformation of Sapphire Clarified by 3D-FEM Simulation of the Nanoindentation
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概要
- 論文の詳細を見る
This work clarifies the origin of anomalous surface deformation reflected by peculiar surface patterns around indentation impressions on various crystallographic planes of sapphire. The three-dimensional finite element simulation (3D-FEM) of nanoindentation in Al_2O_3 crystal allowed the authors to localize the regions in which various kinds of twinning and slip are most prone to be activated. The work provides a novel approach to the "hardness anisotropy", which was modeled so far using a modified uniaxial-stress approximation of this essentially 3D, non-isotropic contact problem. The calculated results enabled the authors to unravel the asymmetric surface deformation detected on prismatic planes by the high-resolution microscopy, which cannot be explained using simple crystallographic considerations.
- 一般社団法人日本機械学会の論文
- 2003-07-15
著者
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SOGA Tetsuo
Nagoya Institute of Technology
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YOSHIDA Fusahito
Department of Mechanical System Engineering, Graduate School of Engineering, Hiroshima University
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Nowak R
名古屋工大 工
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NOWAK Roman
Department of Materials Science & Rock Engineering, Helsinki University of Technology
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MANNINEN Timo
Department of Engineering Physics & Mathematics, Helsinki University of Technology
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LI Chunliang
MASS Research Center, Japan Electronics Industry Ltd.
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HEISKANEN Kari
Department of Materials Science & Rock Engineering, Helsinki University of Technology
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HANNULA Simo-Pekka
VTT Industrial Systems
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LINDROOS Veikko
Department of Materials Science & Rock Engineering, Helsinki University of Technology
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Li Chunliang
Mass Research Center Japan Electronics Industry Ltd.
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Manninen Timo
Department Of Engineering Physics & Mathematics Helsinki University Of Technology
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Heiskanen Kari
Department Of Materials Science & Rock Engineering Helsinki University Of Technology
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Lindroos Veikko
Department Of Materials Science & Rock Engineering Helsinki University Of Technology
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Yoshida Fusahito
Department Of Mechanical Engineering Hiroshima University
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Yoshida Fusahito
Department Of Mechanical Engineering College Engineering Hiroshima University
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