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Philosophical Magazine A Volume 82, 2002 - Issue 2
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Original Articles

Acoustic emission during cyclic deformation of ultrafine-grain copper processed by severe plastic deformation

A. Vinogradov Department of Intelligent Materials Engineering, Osaka City University, Osaka, 558-8585, Japan
,
V. Patlan Department of Mechanical Systems Engineering, Kanazawa University, Kanazawa, 920-8667, Japan
,
S. Hashimoto Department of Intelligent Materials Engineering, Osaka City University, Osaka, 558-8585, Japan
&
K. Kitagawa Department of Mechanical Systems Engineering, Kanazawa University, Kanazawa, 920-8667, Japan
Pages 317-335 | Received 08 Jan 2001, Accepted 16 May 2001, Published online: 04 Aug 2009

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D. Singh, P. Nageswara Rao & R. Jayaganthan. (2014) High cyclic fatigue behaviour of ultrafine grained Al 5083 alloy. Materials Science and Technology 30:14, pages 1835-1842.
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Articles from other publishers (34)

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John P. McCrory, Aleksey Vinogradov, Matthew R. Pearson, Rhys Pullin & Karen M. Holford. 2022. Acoustic Emission Testing. Acoustic Emission Testing 529 565 .
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V. Perfilyev, A. Moshkovich, I. Lapsker & L. Rapoport. (2017) Deformation and Fracture of Copper and Silicon During Indentation Acoustic Emission Measurements. Tribology Letters 65:2.
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X.H. An, S.D. Wu, Z.G. Wang & Z.F. Zhang. (2014) Enhanced cyclic deformation responses of ultrafine-grained Cu and nanocrystalline Cu–Al alloys. Acta Materialia 74, pages 200-214.
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Y. Estrin & A. Vinogradov. (2013) Extreme grain refinement by severe plastic deformation: A wealth of challenging science. Acta Materialia 61:3, pages 782-817.
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Ruslan Valiev & Terence Langdon. 2011. Mechanical Properties of Nanocrystalline Materials. Mechanical Properties of Nanocrystalline Materials 31 59 .
Shokoufeh Malekjani, Peter D. Hodgson, Pavel Cizek & Timothy B. Hilditch. (2011) Cyclic deformation response of ultrafine pure Al. Acta Materialia 59:13, pages 5358-5367.
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Kai Zhang & J.R. Weertman. (2009) Microstructural Changes Produced by Fatigue in High-Purity Copper Severely Deformed by Cryogenic Rolling. Metallurgical and Materials Transactions A 40:10, pages 2255-2263.
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E.C. Aifantis. (2009) Deformation and failure of bulk nanograined and ultrafine-grained materials. Materials Science and Engineering: A 503:1-2, pages 190-197.
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Sean Agnew & Alexie Yu. Vinogradov. 2008. Dekker Encyclopedia of Nanoscience and Nanotechnology, Second Edition - Six Volume Set (Print Version). Dekker Encyclopedia of Nanoscience and Nanotechnology, Second Edition - Six Volume Set (Print Version) 2602 2620 .
M.Yu. Gutkin, T. Ishizaki, S. Kuramoto, I.A. Ovid’ko & N.V. Skiba. (2008) Giant faults in deformed Gum Metal. International Journal of Plasticity 24:8, pages 1333-1359.
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C.X. Huang, S.D. Wu, G.Y. Li & S.X. Li. (2008) Influences of cyclic deformation and subsequent aging treatment on the tensile properties of Cu processed by equal-channel angular pressing. Materials Science and Engineering: A 483-484, pages 433-436.
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Changzheng Xu, Qingjuan Wang, Maosheng Zheng, Jindou Li, Meiquan Huang, Qingming Jia, Jiewu Zhu, Ludvik Kunz & Michal Buksa. (2008) Fatigue behavior and damage characteristic of ultra-fine grain low-purity copper processed by equal-channel angular pressing (ECAP). Materials Science and Engineering: A 475:1-2, pages 249-256.
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D. R. Fang, P. Zhang, Q. Q. Duan, S. D. Wu, Z. F. Zhang, J. J. Li & N. Q. Zhao. (2007) Fatigue Behavior of Al‐Cu Alloy Subjected to Different Numbers of ECAP Passes. Advanced Engineering Materials 9:10, pages 860-866.
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Peter Hübner, Rene Kiessling, Horst Biermann, Thomas Hinkel, Werner Jungnickel, Rudolf Kawalla, Heinz-Werner Höppel & Johannes May. (2007) Static and Cyclic Crack Growth Behavior of Ultrafine-Grained Al Produced by Different Severe Plastic Deformation Methods. Metallurgical and Materials Transactions A 38:9, pages 1926-1933.
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V. F. Terent’ev. (2007) Fatigue resistance of titanium and iron alloys with submicrocrystalline and nanocrystalline structure. A review. Metal Science and Heat Treatment 49:9-10, pages 476-483.
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S. J. Xie, P. K. Liaw & H. Choo. (2006) Tensile behavior and deformation mechanisms of bulk ultrafine-grained copper. Journal of Materials Science 41:19, pages 6328-6332.
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Ruslan Z. Valiev & Terence G. Langdon. (2006) Principles of equal-channel angular pressing as a processing tool for grain refinement. Progress in Materials Science 51:7, pages 881-981.
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M. Goto, S.Z. Han, T. Yakushiji, C.Y. Lim & S.S. Kim. (2006) Formation process of shear bands and protrusions in ultrafine grained copper under cyclic stresses. Scripta Materialia 54:12, pages 2101-2106.
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G.P. Zhang, C.A. Volkert, R. Schwaiger, P. Wellner, E. Arzt & O. Kraft. (2006) Length-scale-controlled fatigue mechanisms in thin copper films. Acta Materialia 54:11, pages 3127-3139.
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L. Kunz, P. Lukáš & M. Svoboda. (2006) Fatigue strength, microstructural stability and strain localization in ultrafine-grained copper. Materials Science and Engineering: A 424:1-2, pages 97-104.
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S.D. Wu, Z.G. Wang, C.B. Jiang, G.Y. Li, I.V. Alexandrov & R.Z. Valiev. (2004) Shear bands in cyclically deformed ultrafine grained copper processed by ECAP. Materials Science and Engineering: A 387-389, pages 560-564.
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S.D. Wu, Z.G. Wang, C.B. Jiang, G.Y. Li, I.V. Alexandrov & R.Z. Valiev. (2003) The formation of PSB-like shear bands in cyclically deformed ultrafine grained copper processed by ECAP. Scripta Materialia 48:12, pages 1605-1609.
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