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Metal Science Journal Volume 4, 1970 - Issue 1
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Articles

The Role of Internal Stress in the High-Temperature Deformation of Copper

D. J. Lloyd
&
J. D. Embury
Pages 6-8 | Published online: 18 Jul 2013

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G.J. Lloyd & R.J. Mcelroy. (1975) A model for the quantitative interpretation of high-temperature stress relaxation phenomena The effect of anelasticity. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 32:1, pages 231-244.
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D.J. Lloyd & K. Tangri. (1972) Dislocation dynamics and thermally activated deformation in polycrystalline silver chloride. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 26:3, pages 665-679.
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A. Orlová, M. Pahutová & J. čadek. (1972) Dislocation structure and applied, effective and internal stress in high-temperature creep of alpha iron. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 25:4, pages 865-877.
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Rune Lagneborg. (1972) Dislocation Mechanisms in Creep. International Metallurgical Reviews 17:1, pages 130-146.
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G. B. Gibbs. (1971) A general dislocation model for high-temperature creep. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 23:184, pages 771-780.
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D.J. Lloyd, P.J. Worthn & J.D. Embury. (1970) Dislocation dynamics in the copper-tin system. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 22:180, pages 1147-1160.
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D. J. Abson & J. J. Jonas. (1970) The Hall–Petch Relation and High-Temperature Subgrains. Metal Science Journal 4:1, pages 24-28.
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Articles from other publishers (31)

. 2015. Fundamentals of Creep in Metals and Alloys. Fundamentals of Creep in Metals and Alloys 301 332 .
. 2008. Fundamentals of Creep in Metals and Alloys. Fundamentals of Creep in Metals and Alloys 261 288 .
M.E. Kassner, P. Kumar & W. Blum. (2007) Harper–Dorn creep. International Journal of Plasticity 23:6, pages 980-1000.
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Yoshihiro Terada, Yukako Mori & Tatsuo Sato. (2006) Internal Stress during Creep in a Die-Cast AM50 Magnesium Alloy at 473 K. MATERIALS TRANSACTIONS 47:10, pages 2493-2496.
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M. E. Kassner, M. T. Pérez-Prado, M. Long & K. S. Vecchio. (2002) Dislocation microstructure and internal-stress measurements by convergent-beam electron diffraction on creep-deformed Cu and Al. Metallurgical and Materials Transactions A 33:2, pages 311-317.
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L. Lin & A. S. Argon. (1994) Structure and plastic deformation of polyethylene. Journal of Materials Science 29:2, pages 294-323.
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D.M. Shinozaki & C.M. Sargent. (1985) Time-dependent deformation resistance of oriented polypropylene. Materials Science and Engineering 73, pages 77-85.
Crossref
B. Derby & M.F. Ashby. (1984) Power-laws, and the An correlation in creep. Scripta Metallurgica 18:10, pages 1079-1084.
Crossref
P. Karduck, G. Gottstein & H. Mecking. (1983) Deformation structure and nucleation of dynamic recrystallization in copper single crystals. Acta Metallurgica 31:10, pages 1525-1536.
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M. Boček & I. Armas. (1982) Recovery and deformation substructures of zircaloy-4 in high temperature plasticity under stationary or non-stationary stress. Journal of Nuclear Materials 105:2-3, pages 293-301.
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J.C. Gibeling & W.D. Nix. (1981) Observations of anelastic backflow following stress reductions during creep of pure metals. Acta Metallurgica 29:10, pages 1769-1784.
Crossref
B. P. Kashyap & G. S. Murty. (1981) Internal Stresses in the High Temperature Deformation of the Pb–Sn Eutectic. Transactions of the Japan Institute of Metals 22:8, pages 515-520.
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J.C. Gibeling & W.D. Nix. (1980) The description of elevated temperature deformation in terms of threshold stresses and back stresses: A review. Materials Science and Engineering 45:2, pages 123-135.
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W.D. Nix & B. Ilschner. 1979. Strength of Metals and Alloys. Strength of Metals and Alloys 1503 1530 .
Tadashi Hasegawa, Takao Yakou, Hiroyuki Akashi & Seiichi Karashima. (1978) Change in Dislocation Structure during Cyclic Straining of Polycrystalline Aluminium at High Temperatures. Transactions of the Japan Institute of Metals 19:3, pages 129-137.
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N. Ibrahim, D.M. Shinozaki & C.M. Sargent. (1977) Deformation resistance and the flow curve in high-density polyethylene. Materials Science and Engineering 30:2, pages 175-180.
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S. Takeuchi & A. S. Argon. (1976) Steady-state creep of single-phase crystalline matter at high temperature. Journal of Materials Science 11:8, pages 1542-1566.
Crossref
Ken Toma, Hideo Yoshinaga & Shotaro Morozumi. (1976) Internal Stresses during High-Temperature Deformation of Pure Aluminium and an Al–Mg Alloy. Transactions of the Japan Institute of Metals 17:2, pages 102-110.
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R.P. Skelton. (1976) Stress relaxation during high temperature high strain fatigue. Materials Science and Engineering 22, pages 213-222.
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R.P. Skelton. (1975) High strain fatigue of 20Cr/25Ni/Nb steel at 1025 K Part I: Shape changes. Materials Science and Engineering 19:1, pages 25-30.
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W.J. Evans & G.F. Harrison. (1975) Anelastic deformation and stress reduction experiments during creep. Scripta Metallurgica 9:3, pages 239-246.
Crossref
E.C Aifantis & W.W Gerberich. (1975) A theoretical review of stress relaxation testing. Materials Science and Engineering 21, pages 107-113.
Crossref
G.H. Reynolds. (1974) Room temperature creep of recrystallized dispersion-strengthened lead. Scripta Metallurgica 8:7, pages 781-784.
Crossref
J.P Poirier. (1974) Quelques remarques sur la sous-structure de fluage. Analogies hydronamiques. Materials Science and Engineering 13:2, pages 191-193.
Crossref
T Hasegawa, S Karashima & Y Ikeuchi. (1973) High-temperature creep rate and dislocation structure in a dilute copper-aluminium alloy. Acta Metallurgica 21:7, pages 887-895.
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G. Streb & B. Reppich. (1973) Steady state deformation and dislocation structure of pure and Mg-doped LiF single crystals. II. Etch pit studies of dislocation structure. Physica Status Solidi (a) 16:2, pages 493-505.
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H. Oikawa, T. Kato & S. Karashima. (1973) Activation Parameters of High-Temperature Creep in Nickel, and in Ni-9.5at% Cr and Ni-10.3at% W Alloys. Transactions of the Japan Institute of Metals 14:5, pages 389-395.
Crossref
G.S. Murty. (1972) Internal stresses in a superplastic Mg alloy. Scripta Metallurgica 6:8, pages 663-666.
Crossref
M Boček & D Preininger. (1972) Investigations of the mean internal stress during stress relaxation at hightemperatures. Materials Science and Engineering 9, pages 301-311.
Crossref
G. L. Dunlop & D. M. R. Taplin. (1972) The tensile properties of a superplastic aluminium bronze. Journal of Materials Science 7:1, pages 84-92.
Crossref
D. J. Lloyd & J. D. Embury. (2006) Stress Relaxation Testing and the Determination of the Internal Stress. physica status solidi (b) 43:1, pages 393-399.
Crossref

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