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Articles

The Contribution of Grain-Boundary Diffusion to Creep at Low Stresses

B. Burton
&
G. W. Greenwood
Pages 215-218 | Published online: 18 Jul 2013

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Hui Kang, Junjie Shen, Hongguang Han, Shanjun Zhang, Fuyong Hu, Biao He, Qingquan Zhao & Gongye Xiao. (2020) Influence of long-term thermal ageing (>10,000h) on low stress creep deformation of P92 heat-resistant steels. Materials at High Temperatures 37:3, pages 196-206.
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. (2013) Reflections on creep: a review of the mst archive. Materials Science and Technology 29:8, pages 893-899.
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I. Tsukrov, V.M. Grychanyuk & T.S. Gross. (2008) Finite Element Modeling of Diffusional Creep with Explicit Consideration of Enhanced Vacancy Diffusivity in a Finite Region Adjacent to the Grain Interface. Mechanics of Advanced Materials and Structures 15:6-7, pages 533-539.
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V. Srivastava, K. R. McNee, H. Jones & G. W. Greenwood. (2005) Tensile creep behaviour of coarse grained copper foils at high homologous temperatures and low stresses. Materials Science and Technology 21:6, pages 701-707.
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G. Dimmler, P. Weinert & H. Cerjak. (2004) Analysis of steady state creep behaviour of 9–12% chromium ferritic–martensitic steels. Materials Science and Technology 20:12, pages 1525-1530.
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Jian Nong Wang. (1996) On the transition from power-law creep to diffusional creep. Philosophical Magazine A 73:4, pages 1181-1191.
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V.V. Kutumbarao & G.W. Greenwood. (1986) Influence of gas bubbles on creep of copper under small shear stresses. Materials Science and Technology 2:2, pages 129-132.
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K. Kuchařovă, F. Dobeš, A. Orlovă, K. Milička & J. Čadek. (1984) High temperature creep in precipitation strengthened Cu-2Fe alloy. Metal Science 18:3, pages 137-142.
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W. J. Clegg & J. W. Martin. (1982) Diffusion creep threshold in two-phase alloys. Metal Science 16:1, pages 65-72.
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T. Sritharan & H. Jones. (1981) Creep of type 316 stainless steel at low stresses. Metal Science 15:8, pages 365-368.
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K. U. Snowden, D. S. Hughes & P. A. Stathers. (1981) Grain-boundary cavity growth during high-temperature creep and fatigue. Metal Science 15:2, pages 73-78.
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W. B. Hutchinson & R. K. Ray. (1979) Influence of phosphorus additions on annealing behaviour of cold-worked copper. Metal Science 13:3-4, pages 125-130.
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B. Burton & W. B. Beeré. (1978) Influence of second-phase particles on diffusional creep. Metal Science 12:2, pages 71-76.
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I. G. Crossland & R. B. Jones. (1977) Grain boundary diffusion creep in magnesium. Metal Science 11:11, pages 504-508.
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Rolf Sandström. (2023) Creep at low stresses in aluminium (Harper-Dorn) and in an austenitic stainless steel with a stress exponent of 1. Materials Today Communications 36, pages 106558.
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Hongguang Han, Junjie Shen & Jiaxing Xie. (2018) Effects of Precipitates Evolution on Low Stress Creep Properties in P92 Heat-resistant Steel. Scientific Reports 8:1.
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Shigeto Yamasaki, Masatoshi Mitsuhara, Ken-ichi Ikeda, Satoshi Hata & Hideharu Nakashima. (2014) Low Stress Creep Deformation in High Chromium Ferritic Heat-resistant Steel Evaluated by Helicoid Spring Creep Test Method. Tetsu-to-Hagane 100:5, pages 688-695.
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Shigeto Yamasaki, Masatoshi Mitsuhara, Ken-ichi Ikeda, Satoshi Hata & Hideharu Nakashima. (2014) Low-Stress Creep Deformation in Long-Term Aged Ferritic Heat-Resistant Steel. MATERIALS TRANSACTIONS 55:5, pages 842-849.
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