Anisotropic atomic packing model for abnormal grain growth mechanism of WC-25 wt.% Co alloy

Ryoo, H S; Hwang, S K

doi:10.1016/S1359-6462(98)00354-6

Title: Anisotropic atomic packing model for abnormal grain growth mechanism of WC-25 wt.% Co alloy

Journal Article · Tue Nov 03 00:00:00 EST 1998 · Scripta Materialia

DOI:https://doi.org/10.1016/S1359-6462(98)00354-6· OSTI ID:289466

Ryoo, H S; Hwang, S K ^[1]

Inha Univ., Incheon (Korea, Republic of). Dept. of Metallurgical Engineering

During liquid phase sintering, cemented carbide particles grow into either faceted or non-faceted grain shapes depending on ally system. In case of WC-Co alloy, prism-shape faceted grains with (0001) planes and {l_brace}1{bar 1}00{r_brace} planes on each face are observed, and furthermore an abnormal grain growth has been reported to occur. When abnormal grain growth occurs in WC crystals, dimension ratio, R, of the length of the side of the triangular prism face to the height of the prism is higher than 4 whereas that for normal grains is approximately 2. Abnormal grain growth in this alloy is accelerated by the fineness of starting powders and by high sintering temperature. To account for the mechanism of the abnormal grain growth, there are two proposed models which drew much research attention: nucleation and subsequent carburization and transformation of {eta} (W{sub 3}Co{sub 3}C) phase into WC, and coalescence of coarse WC grains through dissolution and re-precipitation. Park et al. proposed a two-dimensional nucleation theory to explain the abnormal grain growth of faceted grains. There are questions, however, on the role of {eta} phase on abnormal grain growth. The mechanism of coalescence of spherical grains as proposed by Kingery is also unsuitable for faceted grains. So far theories on abnormal grain growth do not provide a satisfactory explanation on the change of R value during the growth process. In the present work a new mechanism of nucleation and growth of faceted WC grains is proposed on the ground of anisotropic packing sequence of each atom.

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OSTI ID:: 289466

Journal Information:: Scripta Materialia, Vol. 39, Issue 11; Other Information: PBD: 3 Nov 1998

Country of Publication:: United States

Language:: English

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36 MATERIALS SCIENCE
GRAIN GROWTH
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COBALT
MATHEMATICAL MODELS
POWDERS
SINTERING
LIQUIDS
ANISOTROPY
NUCLEATION
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Title: Anisotropic atomic packing model for abnormal grain growth mechanism of WC-25 wt.% Co alloy

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