Abstract
Coarsening during sintering results from surface motion, while grain growth results from grain boundary motion. The sintering of two spherical particles of different sizes, and subsequent coarsening and grain growth, were studied until the smaller particle disappeared. When the grain boundary mobility M gb was comparable to the surface mobility M s, the curved grain boundary migrated out of the smaller particle in a shorter time with increasing ratio of grain boundary energy γ gb to surface energy γ s. As long as the grain boundary was anchored to the surface triple junction, the grain boundary was approximated to be flat at the limit of M gb ≫ M s. The motion of flat grain boundary was affected by γ gb/ γ s in a different way to that of the curved grain boundary.
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