Theory of the Dependence of Densification on Grain Growth During Intermediate‐Stage Sintering
- 1 May 1975
- journal article
- Published by Wiley in Journal of the American Ceramic Society
- Vol. 58 (5-6) , 177-182
- https://doi.org/10.1111/j.1151-2916.1975.tb11437.x
Abstract
A semiempirical model for intermediate‐stage sintering is developed based on simultaneously occurring volume and grain‐boundary diffusion mechanisms of mass transport and explicitly incorporating the effects of grain growth. The sintering equation derived depends strongly on the reduction of pore number density associated with grain growth and is independent of the mechanism of grain growth. The time and temperature dependencies of densification predicted by the equation, which are tested using data for metal and ceramic powders, agree well with observations. The data indicate that grain‐boundary diffusion contributes negligibly to densification.Keywords
This publication has 25 references indexed in Scilit:
- Analysis of pore shrinkage by volume diffusion during final stage sinteringJournal of Applied Physics, 1973
- A Study of Sintering Using Hot-Stage Electron MicroscopyMetal Science Journal, 1970
- Chemical Potentials and Initial Sintering in Pure Metals and Ionic CompoundsJournal of Applied Physics, 1966
- Self-diffusion in beryllium oxideJournal of Nuclear Materials, 1964
- SOME ELEMENTARY PRINCIPLES OF POLYCRYSTALLINE MICROSTRUCTUREInternational Materials Reviews, 1964
- Aluminum Ion Diffusion in Aluminum OxideThe Journal of Chemical Physics, 1962
- Sintering Crystalline Solids. II. Experimental Test of Diffusion Models in Powder CompactsJournal of Applied Physics, 1961
- Sintering Crystalline Solids. I. Intermediate and Final State Diffusion ModelsJournal of Applied Physics, 1961
- Study of the Initial Stages of Sintering Solids by Viscous Flow, Evaporation-Condensation, and Self-DiffusionJournal of Applied Physics, 1955
- Self-Diffusion in CopperPhysical Review B, 1954