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http://dx.doi.org/10.3740/MRSK.2002.12.10.825

Behaviors of Grain Growth in Carbide Added TiC Matrix Cermets  

Shin, Soon-GI (Division of Matallurigical and materials, and Chemical Engineering Dong-A University)
Lee, Jun-Hee (Division of Matallurigical and materials, and Chemical Engineering Dong-A University)
Lee, Hwa-Sang (Division of Matallurigical and materials, and Chemical Engineering Dong-A University)
Publication Information
Korean Journal of Materials Research / v.12, no.10, 2002 , pp. 825-830 More about this Journal
Abstract
The growth rate of solid grains in TiC-XC-2vol% and TiC-XC-30vo1% Ni cermets, where X=Zr, W or Mo, was fitted to an equation of the form $d^3$-$do^3$=Kt. The grain growth behavior during liquid phase sintering at 1673K decreased markedly with addition of $Mo_2$C or WC and increased with addition of ZrC. The contiguity ratio was greater in the alloys with smaller growth rate constant and decreased with increasing Ni content in the $TiC-Mo_2$C-Ni cermet. The grain growth mechanism could be explained by the effect of contiguous grain boundaries in restricting the overall grain growth.
Keywords
Cermets; titanium carbide; grain growth; contiguous carbide; liquid phase sintering;
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  • Reference
1 /
[ I.M.Stephenson;J.White ] / Trans. Brit. Ceramic Soc.
2 /
[ S.S.Kim;D.N.Yoon ] / Acta Met.   DOI   ScienceOn
3 /
[ D.S.Buist;B.Jackson;I.M.Stepenson;W.F.Ford;J.White ] / Trans. Brit. Ceramic Soc.
4 E.R. Stover and J. Wulff, Trans. Met. Soc. AIME, 215, 127 (1959)
5 H. Suzuki, K. Hayashi, I. Gawakatsu: J. Jpn. Int Met, 31(9), 1100 (1967)   DOI
6 N.M. Parikh, J. Amer. Ceram. Soc., 40, 335 (1957) PARIKH, N.M.   DOI
7 H. Doi, Science of Hard Materials, pp. 312, Adam Hilger Ltd., Bristol and Boston, (1984)
8 H. Matsubara and T. Sakuma, Proc. of the International Institute of Sintering Symposium, pp. 1269, Elsrvier Applied Science, (1987)
9 R. Warren, J. Less-Com. Met., 17, 65 (1969)   DOI   ScienceOn
10 鈴木壽, 超硬合金と燒結硬質村料(基礎と用), pp. 309, 丸善(株), (1986)
11 R.L. Fullman, Trans. Met. Soc. AIME, 197, 447 (1953)
12 J. Gurland, Trans. Met. Soc. AIME, 212, 452 (1958)
13 E.E. Underwood, Quantitative Stereology, pp. 312, Addision-Wesley, Reading, MA, (1970)
14 T. Yamamoto, A. Jaroenworaluck, Y. Ikuhara and T. Sakuma, J. Mater. Res., 14(11), (1999)
15 山家菱, 貞廣孟史, 粉體および粉末治金, 16, 190 (1969)
16 H. Suzuki, K. Hayashi and O. Terada, J. Japan Inst. Met., 35, 146 (1971)   DOI
17 E.K. Storms, The Refractory Carbides, pp. 11, ed., J.L. Margrave, Academic Press, New York and London, (1967)
18 R.M. German, Lliquid Phase Sintering, Plenum Press, New York, (1985)
19 M. Humenik and N.M. Parikh, J. Am. Ceram. Soc., 39, 60 (1956)   DOI
20 N.M. Parikh and M. Humenik, J. Am. Ceram. Soc., 40, 315 (1957)   DOI
21 G.W. Greemwood, Acta Metall. 4, 243 (1956)   DOI   ScienceOn
22 I.M. Lifshitz and V.V. Slyozov, J. Phys. Chem. Solids, 19, 35 (1961)   DOI   ScienceOn
23 S. Sarian and H.W. Wert, J. Appl. Phys. 37, 1675 (1966) doi:   DOI
24 A.J. Ardell, Acta Metall., 20, 61 (1972)   DOI   ScienceOn
25 H.E. Exner and H. Fischmeister, Arch. Eisenhuttenwesen, 37, 417 (1966)
26 L. Lindau and K.G. Stjernberg, Powder Met., 19, 210 (1976)   DOI   ScienceOn
27 R. Warren, J. Mater. Sci., 7, 1434 (1972)   DOI
28 H.E. Exner, Z. Metallkde, 64, 273 (1973)
29 H.E. Exner, E.S. Marita and G. Petzow, Mod. Dev. Powder Met., pp. 315, ed., H. Hausner, Plenum Press, New York, (1971)
30 D. Moskowitz and M. Humenik, Jr., Modern Development in P/M, vol. 3, pp. 88, ed., H. H. Hausner, Plenum Press, N. Y. (1966)
31 H. Suzuki, K. Hayashi and O. Terada, J. Japan Inst. Met., 35, 936 (1971)   DOI
32 E. Hanitzsch, M. Kahlweit, Z. Phys. Chem. II. N.F. 65, 290 (1969a)   DOI
33 J.L. Chermant and M. Coaster, J. Microscopy, 109, 269 (1977)   DOI   ScienceOn
34 C. Wagner, Z. Elektrochem., 65, 581 (1961)
35 E. Hanitzsch, M. Kahlweit, Z. Phys. Chem. I. N.F. 57, 145 (1968)   DOI
36 E. Hanitzsch, M. Kahlweit, Symposium on Industrial Crystallisation, 130-141 (1969b)
37 R. Warren and M.B. Waldron, Powder Metallurgy, 15, 180 (1972)
38 P.W. Voorhees and M.E. Glicksman, Metall. Trans., 15A, 1081 (1984)
39 S.G. Yang, S.S. Mani and R.M. German, JOM, April, 11 (1990)
40 R. Warren and M.B. Waldron, Powder Met., 15, 180 (1972)
41 S.S. Kim and D.N. Yoon, Acta Met., 31, 1151 (1983)   DOI   ScienceOn
42 D.S. Buist, B. Jackson, I.M. Stephenson, W.F. Ford and J. White, Trans. Brit. Ceramic Soc., 64, 173 (1965)
43 I.M. Stephenson and J. White, Trans. Brit. Ceramic Soc., 66, 443 (1967)