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Philosophical Magazine A Volume 79, 1999 - Issue 3
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Original Articles

Cyclic deformation behaviour of a copper bicrystal with single-slip-oriented component crystals and a perpendicular grain boundary: Cyclic stress—strain response and saturation dislocation observation

Z. F. Zhang State Key Laboratory for Fatigue and Fracture of Materials, Institute of Metal Research, Academia Sinica, Shenyang, 110015, PR China
&
Z. G. Wang State Key Laboratory for Fatigue and Fracture of Materials, Institute of Metal Research, Academia Sinica, Shenyang, 110015, PR China
Pages 741-752 | Received 10 Mar 1998, Accepted 02 Jun 1998, Published online: 12 Aug 2009

Citations (18)

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Read on this site (6)

P. Zhang, S. Qu, Q.Q. Duan, S.D. Wu, S.X. Li, Z.G. Wang & Z.F. Zhang. (2011) Low-cycle fatigue-cracking mechanisms in fcc crystalline materials. Philosophical Magazine 91:2, pages 229-249.
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Y.Z. Tian, Z.F. Zhang & Z.G. Wang. (2009) Cyclic deformation and fatigue cracking behaviors of Cu–28wt%Ag binary alloy. Philosophical Magazine 89:21, pages 1715-1730.
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P. Zhang, Q.Q. Duan, S.X. Li & Z.F. Zhang. (2008) Cyclic deformation and fatigue cracking behaviour of polycrystalline Cu, Cu–10 wt% Zn and Cu–32 wt% Zn. Philosophical Magazine 88:16, pages 2487-2503.
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S.X. Li, X.W. Li, Z.F. Zhang, Z.G. Wang & K. Lu. (2002) On the formation of deformation bands in fatigued copper single crystals. Philosophical Magazine A 82:16, pages 3129-3147.
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Z.F. Zhang & Z.G. Wang. (2001) Cyclic deformation behaviour of a copper bicrystal with common primary slip planes. Philosophical Magazine A 81:2, pages 399-415.
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Z.F. Zhang, Z.G. Wang & Y.M. Hu. (2000) Effect of grain size on grain boundary strengthening of copper bicrystals under cyclic loading. Materials Science and Technology 16:2, pages 157-162.
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Articles from other publishers (12)

Z. F. Zhang & Z. G. Wang. (2022) Comparison of fatigue lives between grain boundaries and component single crystals of copper bicrystals. International Journal of Materials Research 93:12, pages 1188-1193.
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R.H. Li, P. Zhang & Z.F. Zhang. (2013) Fatigue cracking and fracture behaviors of coarse-grained copper under cyclic tension–compression and torsion loadings. Materials Science and Engineering: A 574, pages 113-122.
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P. Li, Z.F. Zhang, S.X. Li & Z.G. Wang. (2010) Effect of orientation on cyclic stress–strain curves and dislocation patterns of Ag and Cu single crystals. Materials Science and Engineering: A 527:9, pages 2305-2312.
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Z.F. Zhang & Z.G. Wang. (2008) Grain boundary effects on cyclic deformation and fatigue damage. Progress in Materials Science 53:7, pages 1025-1099.
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P.D. Peralta. 2005. Encyclopedia of Materials: Science and Technology. Encyclopedia of Materials: Science and Technology 1 18 .
Z. F. Zhang, Z. G. Wang & J. Eckert. (2011) What types of grain boundaries can be passed through by persistent slip bands?. Journal of Materials Research 18:5, pages 1031-1034.
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Z.F. Zhang & Z.G. Wang. (2003) Dependence of intergranular fatigue cracking on the interactions of persistent slip bands with grain boundaries. Acta Materialia 51:2, pages 347-364.
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Z. F. Zhang & Z. G. Wang. (2002) Comparison of fatigue lives between grain boundaries and component single crystals of copper bicrystals. Zeitschrift für Metallkunde 93:12, pages 1188-1193.
Crossref
Jieping Zhang & Campbell Laird. (2000) Cyclic deformation of tungsten monofilament-reinforced multicrystalline copper composites. Materials Science and Engineering: A 290:1-2, pages 155-163.
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Z.F. Zhang & Z.G. Wang. (2000) Comparison of fatigue cracking possibility along large- and low-angle grain boundaries. Materials Science and Engineering: A 284:1-2, pages 285-291.
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Z.F Zhang & Z.G Wang. (1999) Cyclic deformation features of a copper bicrystal with an embedded grain and surrounding grain boundary. Materials Science and Engineering: A 271:1-2, pages 449-457.
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Z.F Zhang, Z.G Wang & Y.M Hu. (1999) Fatigue crack initiation and fracture behavior of a copper bicrystal with a perpendicular grain boundary. Materials Science and Engineering: A 269:1-2, pages 136-141.
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