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Philosophical Magazine A Volume 68, 1993 - Issue 5
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Original Articles

Internal friction of copper bicrystals with [001] twist boundaries

Masaharu Kato Department of Materials Science and Engineering, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama, 227, Japan
&
T. Mori Department of Materials Science and Engineering, Tokyo Institute of Technology, 4259 Nagatsuta, Midori-ku, Yokohama, 227, Japan
Pages 939-949 | Received 11 Jan 1993, Accepted 04 May 1993, Published online: 20 Aug 2006

Citations (17)

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Read on this site (6)

Q. P. Kong & Q. F. Fang. (2016) Progress in the Investigations of Grain Boundary Relaxation. Critical Reviews in Solid State and Materials Sciences 41:3, pages 192-216.
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W.B. Jiang, Q.P. Kong, P. Cui, Q.F. Fang, D.A. Molodov & G. Gottstein. (2010) Internal friction in Al bicrystals with ⟨111⟩ tilt and twist grain boundaries. Philosophical Magazine 90:6, pages 753-764.
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H. Miura, T. Sakai, S. Maruoka & J.J. Jonas. (2010) Production of recrystallized nano-grains in a fine-grained Cu–Zn alloy. Philosophical Magazine Letters 90:2, pages 93-101.
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R.J. Kurtz, R.G. Hoagland & J.P. Hirth. (1999) Effect of extrinsic grain-boundary defects on grain-boundary sliding resistance. Philosophical Magazine A 79:3, pages 665-681.
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Hiromi Miura, Taku Sakai, Norio Tada & Masaharu Kato. (1996) Strain-rate effects on intermediate-temperature embrittlement of Cu‒SiO2 bicrystals with [001] twist boundaries. Philosophical Magazine A 73:4, pages 871-882.
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Ryoichi Monzen & Yuji Sumi. (1994) Determination of activation energy for nanometre-scale grain-boundary sliding in copper. Philosophical Magazine A 70:5, pages 805-817.
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Articles from other publishers (11)

Meng Sun, Weibin Jiang, Xueqing Liu, Tianlu Chen, Xianping Wang & Qianfeng Fang. (2021) A comparative study on the grain boundary internal friction peak of pure iron. Materials Letters 305, pages 130814.
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Ann-Kathrin Maier, Daniele Mari, Iva Tkalcec & Robert Schaller. (2015) Grain boundary relaxation in yellow gold bi-crystals. Materials Science and Engineering: A 632, pages 43-49.
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. 2011. Grain Boundaries and Crystalline Plasticity. Grain Boundaries and Crystalline Plasticity 165 215 .
W.B. Jiang, Q.P. Kong & P. Cui. (2010) Further evidence of grain boundary internal friction in bicrystals. Materials Science and Engineering: A 527:21-22, pages 6028-6032.
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Q.P. Kong, W.B. Jiang, Y. Shi, P. Cui, Q.F. Fang & M. Winning. (2009) Grain boundary internal friction in bicrystals with different misorientations. Materials Science and Engineering: A 521-522, pages 128-133.
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A. P. Merkle & L. D. Marks. (2007) A predictive analytical friction model from basic theories of interfaces, contacts and dislocations. Tribology Letters 26:1, pages 73-84.
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W. B. Jiang, P. Cui, Q. P. Kong, Y. Shi & M. Winning. (2005) Internal friction peak in pure Al bicrystals with ⟨100⟩ tilt boundaries. Physical Review B 72:17.
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Y. Shi, P. Cui, Q. P. Kong, W. B. Jiang & M. Winning. (2005) Internal friction peak in bicrystals with different misorientations. Physical Review B 71:6.
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H Miura, T Sakai, T Otsuka, R Monzen & S Onaka. (2000) Sliding of copper [001]-twist grain boundaries detected by shear deformation of liquid B2O3 particles on the grain boundaries. Acta Materialia 48:8, pages 1959-1966.
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C. Minkwitz, Chr. Herzig, E. Rabkin & W. Gust. (1999) The inclination dependence of gold tracer diffusion along a Σ3 twin grain boundary in copper. Acta Materialia 47:4, pages 1231-1239.
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Hiromi Miura, Kazuhide Saijo & Taku Sakai. (1996) High-Temperature Deformation and Fracture Behavior of Cu&ndash;SiO<SUB>2</SUB> Bicrystals with [011] Twist Boundaries. Materials Transactions, JIM 37:4, pages 754-761.
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