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International Metals Reviews Volume 26, 1981 - Issue 1
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Articles

Growth of intergranular creep cavities

L.-E. Svensson
&
G. L. Dunlop
Pages 109-131 | Published online: 18 Jul 2013

Citations (11)

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Read on this site (5)

K. Laha, J. Kyono & N. Shinya. (2007) Some chemical and microstructural factors influencing creep cavitation resistance of austenitic stainless steels. Philosophical Magazine 87:17, pages 2483-2505.
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D. Xiao, J.E. Yukich, D.G. Harlow & T.J. Delph. (1992) A simplified probabilistic model of the growth of creep cavitation. Philosophical Magazine A 65:1, pages 71-84.
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M. J. Stowell. (1983) Failure of superplastic alloys. Metal Science 17:1, pages 1-11.
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G. S. B. Chari, K. G. Satyanarayana & C. G. Krishnadas Nair. (1982) Effect of grain flow on creep properties of heat-resistant aluminium-alloy forgings. Metals Technology 9:1, pages 504-506.
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L.-E. Svensson & G. L. Dunlop. (1982) Growth mechanism of intergranular creep cavities in α-brass. Metal Science 16:1, pages 57-64.
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Articles from other publishers (6)

Wolfgang Gräfe. (2019) Fatigue of Cellulose Acetate and Ductile Metals. Advanced Materials Research 1154, pages 112-121.
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C.H Iwashita & R.P Wei. (2000) Coarsening of grain boundary carbides in a nickel-based ternary alloy during creep. Acta Materialia 48:12, pages 3145-3156.
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Tze-jer Chuang, June-Liang ChuSanboh Lee. (1996) Diffusive Crack Growth at a Bimaterial Interface. Journal of Applied Mechanics 63:3, pages 796-803.
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A. H. Chokshi. (1987) Analysis of constrained cavity growth during high temperature creep deformation. Materials Science and Technology 3:8, pages 656-664.
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M. Boček & M. Hoffmann. (1985) High temperature thermal creep of materials under non-stationary stress and/or temperature loading conditions. Nuclear Engineering and Design. Fusion 2:1, pages 29-52.
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M Bočker & M Hoffmann. (1984) The influence of cavitation damage upon high temperature creep under stationary and non-stationary loading conditions. Journal of Nuclear Materials 125:1, pages 7-18.
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