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Philosophical Magazine A Volume 51, 1985 - Issue 4
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Letters Section

A method to determine surface free energies from cavity radius distributions

L. Martinez Institute of Physics, University of Mexico, 01OOO, Mexico, D.F., Mexico
&
J. H. Schneibel Metals and Ceramics Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee, 37831, U.S.A.
Pages L29-L34 | Received 22 Nov 1984, Accepted 31 Jan 1985, Published online: 13 Sep 2006

Citations (5)

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Read on this site (1)

J.H. Schneibel & L. Martinez. (1986) Determination of cavity-growth rates from cavity-size distributions. Philosophical Magazine A 54:4, pages 489-500.
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Articles from other publishers (4)

A. Isaac, F. Sket, W. Reimers, B. Camin, G. Sauthoff & A.R. Pyzalla. (2008) In situ 3D quantification of the evolution of creep cavity size, shape, and spatial orientation using synchrotron X-ray tomography. Materials Science and Engineering: A 478:1-2, pages 108-118.
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Simon Perusin, Bernard Viguier, Daniel Monceau & Eric Andrieu. (2004) Experimental Study of the Interactions between Oxidation and Structural Defects. Materials Science Forum 461-464, pages 123-130.
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J.H. Schneibel & L. Martinez. (1989) Crack-like creep cavitation in a nickel aluminide. Acta Metallurgica 37:8, pages 2237-2244.
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Alan J. Markworth & J. Kevin McCoy. (1987) Computer simulation of effects of the pore size distribution on the kinetics of pressure-assisted final-stage densification. Journal of Materials Science 22:2, pages 488-494.
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