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Philosophical Magazine A Volume 45, 1982 - Issue 4
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Original Articles

The dislocation network theory of creep

B. Burton C.E.G.B. Berkeley Nuclear Laboratories, Berkeley, Gloucestershire, GL13 9PB, England
Pages 657-675 | Received 06 Jul 1981, Accepted 24 Sep 1981, Published online: 20 Nov 2006

Citations (35)

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A.I. Pshenichnyuk, V.V. Astanin & O.A. Kaibyshev. (1998) The model of grain-boundary sliding stimulated by intragranular slip. Philosophical Magazine A 77:4, pages 1093-1106.
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B. Burton. (1982) The influence of solute drag on dislocation creep. Philosophical Magazine A 46:4, pages 607-616.
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Articles from other publishers (33)

Zhen-Wei Zhang, Zheng Li, Ying Liu & Jing-Tao Wang. (2022) Path Dependency of Plastic Deformation in Crystals: Work Hardening, Crystallographic Rotation and Dislocation Structure Evolution. Crystals 12:7, pages 999.
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Anatoly I. Pshenichnyuk. 2021. Superplasticity and Grain Boundaries in Ultrafine-Grained Materials. Superplasticity and Grain Boundaries in Ultrafine-Grained Materials 317 353 .
Joshua PellegJoshua Pelleg. 2017. Creep in Ceramics. Creep in Ceramics 311 355 .
. 2015. Fundamentals of Creep in Metals and Alloys. Fundamentals of Creep in Metals and Alloys 301 332 .
Mervyn S. PatersonMervyn S. Paterson. 2013. Materials Science for Structural Geology. Materials Science for Structural Geology 107 207 .
A. Zhilyaev & A. Pshenichnyuk. 2011. Superplasticity and Grain Boundaries in Ultrafine-Grained Materials. Superplasticity and Grain Boundaries in Ultrafine-Grained Materials 119 161 .
. 2010. High Temperature Deformation and Fracture of Materials. High Temperature Deformation and Fracture of Materials 40 68 .
. 2010. High Temperature Deformation and Fracture of Materials. High Temperature Deformation and Fracture of Materials 28 39 .
. 2008. Fundamentals of Creep in Metals and Alloys. Fundamentals of Creep in Metals and Alloys 261 288 .
. 2004. Fundamentals of Creep in Metals and Alloys. Fundamentals of Creep in Metals and Alloys 243 267 .
M. A. Przystupa & A. J. Ardell. (2002) Predictive capabilities of the dislocation-network theory of Harper-Dorn creep. Metallurgical and Materials Transactions A 33:2, pages 231-239.
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M Bartsch, B Geyer, D Häussler, M Feuerbacher, K Urban & U Messerschmidt. (2000) Plastic properties of icosahedral Al–Pd–Mn single quasicrystals. Materials Science and Engineering: A 294-296, pages 761-764.
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T.K Nandy & D Banerjee. (2000) Deformation mechanisms in the O phase. Intermetallics 8:9-11, pages 1269-1282.
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T.K. Nandy & D. Banerjee. (2000) Creep of the orthorhombic phase based on the intermetallic Ti2AlNb. Intermetallics 8:8, pages 915-928.
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M.E Kassner & M.-T Pérez-Prado. (2000) Five-power-law creep in single phase metals and alloys. Progress in Materials Science 45:1, pages 1-102.
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B. Baufeld, D. Baither, M. Bartsch & U. Messerschmidt. (1998) Plastic Deformation of Cubic Zirconia Single Crystals at 1400 °C. physica status solidi (a) 166:1, pages 127-153.
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D. Gómez-García, J. Martínez-Fernández, A. Domínguez-Rodríguez, P. Eveno & J. Castaing. (1996) Deformation mechanisms for high-temperature creep of high yttria content stabilized zirconia single crystals. Acta Materialia 44:3, pages 991-999.
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P. E. Krajewski, J. W. Jones & J. E. Allison. (1995) The effect of particle reinforcement on the creep behavior of single-phase aluminum. Metallurgical and Materials Transactions A 26:12, pages 3107-3118.
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Brian D. Worth, J. Wayne Jones & John E. Allison. (1995) Creep deformation in near-γ TiAl: II. influence of carbon on creep deformation in Ti-48Al-1V-0.3C. Metallurgical and Materials Transactions A 26:11, pages 2961-2972.
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Brian D. Worth, J. Wayne Jones & John E. Allison. (1995) Creep deformation in near-γ TiAl: Part 1. the influence of microstructure on creep deformation in Ti-49Al-1V. Metallurgical and Materials Transactions A 26:11, pages 2947-2959.
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M. S. Soliman. (2004) The influence of stacking fault energy on the creep behaviour of Ni-Cu-solid-solution alloys at intermediate temperatures. Journal of Materials Science 30:5, pages 1352-1356.
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Longquan Shi & D. O. Northwood. (2004) Dislocation network models for recovery creep deformation. Journal of Materials Science 28:22, pages 5963-5974.
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R. J. Amodeo & N. M. Ghoniem. (1990) Dislocation dynamics. I. A proposed methodology for deformation micromechanics. Physical Review B 41:10, pages 6958-6967.
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N. M. Ghoniem & R. J. Amodeo. 1990. Patterns, Defects and Materials Instabilities. Patterns, Defects and Materials Instabilities 303 329 .
Y. Li & Q. P. Kong. (1989) On the relationship between creep rate and stacking fault energy. Physica Status Solidi (a) 113:2, pages 345-351.
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M. E. Kassner, J. W. Elmer & C. J. Echer. (1986) Changes in the subboundary mesh size with creep strain in 304 stainless steel. Metallurgical Transactions A 17:11, pages 2093-2097.
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Essam El-Magd & Spyridon Pantelakis. (1985) Abhängigkeit der inneren Rückspannung von den Kriechbedingungen bei Reinkupfer und bei den Stählen X 6 CrNi 18 11 und X 8 CrNiMoNb 16 16. Steel Research 56:8, pages 439-444.
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A.J Ardell & M.A Przystupa. (1984) Dislocation link-length statistics and elevated temperature deformation of crystals. Mechanics of Materials 3:4, pages 319-332.
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R. M. Hooper & C. A. Brookes. (1984) Incubation periods and indentation creep in lead. Journal of Materials Science 19:12, pages 4057-4060.
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B. Burton. (1984) The physical interpretation of the parameters measured during the tensile testing of materials at elevated temperatures. Journal of Materials Science 19:5, pages 1568-1575.
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Zenji Horita & Terence G. Langdon. (1983) The universal nature of the third power stress dependence for steady-state creep. Scripta Metallurgica 17:5, pages 665-670.
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B. Burton. (1983) Creep fracture processes in zircaloy. Journal of Nuclear Materials 113:2-3, pages 172-178.
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D. A. Yuen, R. Sabadini & E. Boschi. (2007) Mantle rheology from a geodynamical standpoint. La Rivista del Nuovo Cimento 5:8, pages 1-35.
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