Abstract
The theory of solid-state sintering is reviewed, with particular emphasis on the effects of several concurrent mechanisms on sintering behavior. Computer synthesis of both non-isothermal and isothermal sintering data has been used to predict initial sintering behavior under a wide variety of conditions. This approach has been successful in describing the sintering of compacts of spherical particles of Fe, Cu, Fe2 O3, Ag, and LiF. The relative importance of surface, grain boundary, and volume diffusion and vapor transport are discussed. Experimentally observed sintering behavior is discussed in terms of the theoretical model.
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References
Kuczynski, G. C., “Self-Diffusion in Sintering Metal Powders,” Trans. Amer. Inst. Min, (Metall.) Engrs., 185 (1949), 169.
Kuczynski, G. C., “Measurement of Self-Diffusion of Silver Without Radioactive Tracers,” J. Appl. Phys., 21 (1950), 632.
Johnson, D. L. and Clarke, T. M., “Grain Boundary and Volume Diffusion in the Sintering of Silver,” Acta Met., 12 (1964), 1173.
Kingery, W. D. and Berg, M., “Study of the Initial Stages of Sintering Solids by Viscous Flow, Evaporation-Condensation, and Self-Diffusion,” J. Appl. Phys., 26 (1955), 1205.
Nichols, F. A., “Theory of Sintering of Wires by Surface Diffusion,” Acta Met., 16 (1968), 103.
Thümmler, F. and Thömma, W., “The Sintering Process,” Metallurgical Reviews, 12 (1967), 69.
Seigle, L. L., “Atom Movements During Solid State Sintering,” Progress in Powder Metallurgy, Vol. 20, Metal Powder Industries Federation, New York (1964), 221.
Nichols, F. A. and Muffins, W. W., “Morphological Changes of a Surface of Revolution Due to Capillarity-Induced Surface Diffusion,” J. Appl. Phys., 36 (1965), 1826.
Wilson, T. L. and Shewmon, P. G., “The Role of Interfacial Diffusion in the Sintering of Copper,” Trans. Amer. Inst. Min. (Metall.) Engrs., 236 (1966), 48.
Johnson, D. L., “New Method of Obtaining Volume, Grain Boundary, and Surface Diffusion Coefficients from Sintering Data,” accepted for publication in J. Appl. Phys.
Johnson, D. L., Shingu, P. H. and Smart, J. S. III, unpublished.
Moore, D. J., “Initial Sintering Kinetics of Lithium Fluoride in an Inert Atmosphere,” M.S. Thesis, Northwestern University (1968).
Smart, J. S. III, “Initial Solid State Sintering of Hematite,” Ph.D. Dissertation, Northwestern University (1968)
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© 1970 Syracuse University Press Syracuse, New York
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Johnson, D.L. (1970). Solid-State Sintering. In: Burke, J.J., Reed, N.L., Weiss, V. (eds) Ultrafine-Grain Ceramics. Sagamore Army Materials Research Conference Proceedings, vol 15. Springer, Boston, MA. https://doi.org/10.1007/978-1-4684-2643-4_9
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DOI: https://doi.org/10.1007/978-1-4684-2643-4_9
Publisher Name: Springer, Boston, MA
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