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Metal Science Volume 12, 1978 - Issue 2
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Articles

Deformation-induced intergranular creep cavitation in alpha-iron

B. J. Cane
Pages 102-108 | Published online: 18 Jul 2013

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R. P. Skelton. (2017) Deformation, diffusion and ductility during creep – continuous void nucleation and creep-fatigue damage. Materials at High Temperatures 34:2, pages 121-133.
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H. K. D. H. Bhadeshia, A. Strang & D. J. Gooch. (1998) Ferritic power plant steels: remanent life assessment and approach to equilibrium. International Materials Reviews 43:2, pages 45-69.
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G. Sundararajan, M.C. Pandey & P. Rama Rao. (1992) An analysis of the creep embrittlement of Inconel alloy X-750 due to its prior exposure to reduced air pressure at 1150°C. Materials at High Temperatures 10:4, pages 227-236.
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R. Rolls & C. S. Madueke. (1985) Simultaneous creep and oxidation of an Fe–5AL alloy at 973–1073 K. Materials Science and Technology 1:2, pages 152-155.
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D. J. Gooch. (1982) Creep fracture of 12Cr–Mo–V steel. Metal Science 16:2, pages 79-89.
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N. G. Needham & T. Gladman. (1980) Nucleation and growth of creep cavities in a Type 347 steel. Metal Science 14:2, pages 64-72.
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Articles from other publishers (34)

M. Manokaran, Abhishek S. Kashinath, Jyoti S. Jha, Suraj P. Toppo & Rajkumar Singh. (2021) Understanding the Stress Rupture Behavior and Microstructural Changes in Austenitic Stainless Steel SS321. Journal of Materials Engineering and Performance 30:12, pages 9165-9180.
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L.C. Lim & H.P. Pak. (1996) A quick-quench technique for the study of creep cavitation in metals. Scripta Materialia 35:11, pages 1295-1299.
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Kouichi MARUYAMA, Eiji BABA, Kenji YOKOKAWA, Hideaki KUSHIMA & Koichi YAGI. (1994) Errors of Creep Rupture Life Extrapolated by Time-Temperature Parameter Methods. Tetsu-to-Hagane 80:4, pages 336-341.
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A. Szasz, M.A. Aysawy, Z. Dankhazi, L. Kertesz, H. Müller & H. Kirchmayr. (1993) The metastable states of some amorphous FeB alloys. Journal of Non-Crystalline Solids 163:1, pages 49-58.
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Hiroshi Oikawa & Kouichi Maruyama. (1992) Prediction of long-term creep curves. Fusion Engineering and Design 19:4, pages 321-328.
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H. C. Cho, Jin Yu & I. S. Park. (1992) Creep cavitation in a NiCr steel. Metallurgical Transactions A 23:1, pages 201-210.
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A. S. Argon, K. J. Hsia & D. M. Parks. 1992. Topics in Fracture and Fatigue. Topics in Fracture and Fatigue 235 270 .
A. M. Lokochtchenko. (1991) The investigation of the metal damage at the creep by the method of electrical resistance measuring. Acta Mechanica Sinica 7:2, pages 157-161.
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K.J. Hsia, A.S. Argon & D.M. Parks. (1991) Modeling of creep damage evolution around blunt notches and sharp cracks. Mechanics of Materials 11:1, pages 19-42.
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B. Z. Margolin & V. A. Shvetsova. (1991) Effect of strain rate on the nature of failure in static and cyclic loading. Report 1. Formulation of general approaches. Strength of Materials 23:2, pages 107-121.
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O. V. Kuklina & B. Z. Margolin. (1990) Physicomechanical model of creep-induced fracture. Strength of Materials 22:10, pages 1409-1418.
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Jin Yu & J.O. Chung. (1990) Creep rupture by diffusive growth of randomly distributed cavities—II. continual cavity nucleation. Acta Metallurgica et Materialia 38:8, pages 1435-1443.
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M.A. Capano, A.S. Argon & I-W. Chen. (1989) Intergranular cavitation during creep in astroloy. Acta Metallurgica 37:12, pages 3195-3204.
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G. Sundararajan. (1989) The Monkman-Grant relationship. Materials Science and Engineering: A 112, pages 205-214.
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David M. Parks. (1987) Mechanics and mechanisms of creep deformation and damage. Nuclear Engineering and Design 105:1, pages 11-18.
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G. Sundararajan. (1985) Continuous cavity nucleation and creep ductility. Scripta Metallurgica 19:10, pages 1141-1146.
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R. Rolls & C. S. Madueke. (1985) Simultaneous creep and oxidation of an Fe–5AL alloy at 973–1073 K. Materials Science and Technology 1:2, pages 152-155.
Crossref
Norio SHINYA, Junro KYONO & Shin YOKOI. (1984) An Assessment of Creep Damage by Density Change Measurements for Cr-Mo-V Steel. Tetsu-to-Hagane 70:6, pages 573-579.
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S.E. Stanzl, A.S. Argon & E.K. Tschegg. (1983) Diffusive intergranular cavity growth in creep in tension and torsion. Acta Metallurgica 31:6, pages 833-843.
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R. Rolls & M. H. Shahhosseini. (1983) Simultaneous creep and oxidation of an Fe-1 Wt pct Al alloy at 973 to 1073 K. Metallurgical Transactions A 14:6, pages 1207-1211.
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R. Rolls & M. H. Shahhosseini. (1983) Simultaneous creep and oxidation of an Fe-1 wt pct Ai alloy at 973 to 1073 K. Metallurgical Transactions A 14:5, pages 1207-1211.
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M. H. Yoo & H. Trinkaus. (1983) Crack and cavity nucleation at interfaces during creep. Metallurgical Transactions A 14:3, pages 547-561.
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D.P. POPE. 1983. Embrittlement of Engineering Alloys. Embrittlement of Engineering Alloys 125 155 .
A.S. Argon. (1983) Intergranular cavitation in creeping alloys. Scripta Metallurgica 17:1, pages 5-12.
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M.H. Yoo, J.C. Ogle, B.S. Borie, E.H. Lee & R.W. Hendricks. (1982) Small-angle neutron scattering study of fatigue induced cavities in nickel. Acta Metallurgica 30:9, pages 1733-1742.
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R. Rolls & M.H. Shahhosseini. (1982) Simultaneous creep and oxidation of Fe-Si alloys at 973–1073 K. Acta Metallurgica 30:8, pages 1503-1510.
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D.A. Miller & R. Pilkington. 1980. Mechanical Behaviour of Materials. Mechanical Behaviour of Materials 285 292 .
M.S. Loveday & B.F. Dyson. 1980. Mechanical Behaviour of Materials. Mechanical Behaviour of Materials 213 222 .
B.J. Cane. 1980. Mechanical Behaviour of Materials. Mechanical Behaviour of Materials 173 182 .
A. Arbel. (1979) An approach to determining the useful life of materials loaded at high temperatures. Scripta Metallurgica 13:12, pages 1109-1114.
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David A. Miller, Farghalli A. Mohamed & Terence G. Langdon. (1979) An analysis of cavitation failure incorporating cavity nucleation with strain. Materials Science and Engineering 40:2, pages 159-166.
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D. Lonsdale & P.E.J. Flewitt. (1979) Damage accumulation and microstructural changes occurring during the creep of a steel. Materials Science and Engineering 39:2, pages 217-229.
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David A. Miller. (1979) A study of the stress dependence of cavity growth mechanisms. Scripta Metallurgica 13:7, pages 595-598.
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B.J. Cane. (1978) A relationship between deformation and rapture during power-law creep in engineering materials. Materials Science and Engineering 35:2, pages 229-238.
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