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  Ultralong one-dimensional plastic zone created in aluminum underneath a nanoscale indent

Nie, Z.-Y., Sato, Y., Ogata, S., Duarte, M. J., Dehm, G., Li, J., Ma, E., Xie, D.-G., & Shan, Z.-W. (2022). Ultralong one-dimensional plastic zone created in aluminum underneath a nanoscale indent. Acta Materialia, 232:. doi:10.1016/j.actamat.2022.117944.

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アイテムのパーマリンク: https://hdl.handle.net/21.11116/0000-000B-9E62-5 版のパーマリンク: https://hdl.handle.net/21.11116/0000-000B-9E63-4
資料種別: 学術論文

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 作成者:
Nie, Zhi-Yu1, 著者
Sato, Yuji2, 著者
Ogata, Shigenobu3, 著者
Duarte, Maria Jazmin4, 著者           
Dehm, Gerhard5, 著者           
Li, Ju6, 著者
Ma, Evan7, 著者
Xie, De-Gang1, 著者
Shan, Zhi-Wei1, 著者
所属:
1Center for Advancing Materials Performance from the Nanoscale (CAMP-Nano), State Key Laboratory for Mechanical Behavior of Materials, Xi'an Jiaotong University, Xi'an 710049, China, ou_persistent22              
2Department of Mechanical Engineering, The University of Tokyo, Tokyo 113-8656, Japan, ou_persistent22              
3Department of Mechanical Science and Bioengineering, Osaka University, Osaka 560-8531, Japan, ou_persistent22              
4Hydrogen Mechanics and Interface Chemistry, Project Groups, Structure and Nano-/ Micromechanics of Materials, Max-Planck-Institut für Eisenforschung GmbH, Max Planck Society, ou_3157214              
5Structure and Nano-/ Micromechanics of Materials, Max-Planck-Institut für Eisenforschung GmbH, Max Planck Society, ou_1863398              
6Department of Nuclear Science and Engineering and Department of Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, MA 02139, USA, ou_persistent22              
7Center for Alloy Innovation and Design, State Key Laboratory for Mechanical Behavior of Materials, Xi'an Jiaotong University, Xi'an, China, ou_persistent22              

内容説明

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キーワード: Aluminum; Nanostructured materials; Plasticity; Transmission electron microscopy, Dislocation structures; In-situ TEM; Incipient plasticity; Indentation depth; Indentation size effects; Nano indentation; Nano scale; One-dimensional; Plastic zones; Spherical shape, Nanoindentation
 要旨: Nanoindentation on crystalline materials is generally believed to generate a three-dimensional plastic zone, which has a semi-spherical shape with a diameter no larger than a few times the indentation depth. Here, by observing nanoindentation on aluminum in situ inside a transmission electron microscope, we demonstrate that three-dimensional plasticity dominated by regular dislocations triumph as the contact size upon yielding increases above ∼100 nm. However, when the contact diameter is less than ∼50 nm, a narrow and long (hereafter referred to as “one dimensional”) plastic zone can be created in front of the tip, as the indenter successively injects prismatic dislocation loops/helices into the crystal. Interestingly, this one-dimensional plastic zone can penetrate up to 150 times the indentation depth, far beyond the prediction given by the Nix-Gao model. Our findings shed new light on understanding the dislocation behavior during nanoscale contact. The experimental method also provides a potentially novel way to interrogate loop-defect interactions, and to create periodic loop arrays at precise positions for the modification of properties (e.g., strengthening). © 2022

資料詳細

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言語: eng - English
 日付: 2022-06-15
 出版の状態: 出版
 ページ: -
 出版情報: -
 目次: -
 査読: 査読あり
 識別子(DOI, ISBNなど): DOI: 10.1016/j.actamat.2022.117944
 学位: -

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出版物 1

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出版物名: Acta Materialia
  省略形 : Acta Mater.
種別: 学術雑誌
 著者・編者:
所属:
出版社, 出版地: Kidlington : Elsevier Science
ページ: - 巻号: 232 通巻号: 117944 開始・終了ページ: - 識別子(ISBN, ISSN, DOIなど): ISSN: 1359-6454
CoNE: https://pure.mpg.de/cone/journals/resource/954928603100