By Ping Xiao and Brian Ralph
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94] G. Newaz, X. Chen, Surf. Coat. Tech, 190 (2005) 7. [95] H. Wang, R. B. Dinwiddie, Adv. Eng. , 3 (2001) 465. [96] B. Heeg, D. R. Clarke, Surf. Coat. Tech, (2005) [97] P. Anderson, X. Wang, P. Xiao, Surf. Coat. Tech, 185 (2004) 106. [98] P. Anderson, X. Wang, P. Xiao, J. Am. Ceram. , 88 (2005) 324. [99] X. Wang, J. Mei, P. Xiao, J. Euro. Ceram. , 21 (2001) 855. ie Keywords: Silicon nitride, liquid phase sintering, SiAlONs, α-phase, β-phase, grain boundary glass, oxynitride glasses, microstructural engineering, microstructure-property relationships.
Mixed oxide and nitride powders corresponding to sialon compositions produce larger volumes of lower viscosity liquids with yttria Ping Xiao and Brian Ralph 35 than are formed by silicon nitride and its surface silica under similar conditions. Although the sintering mechanism remains that of solution-precipitation [21] and the kinetics can be interpreted on the basis of the Kingery model [10], some of the liquid is transient and can be incorporated into the structure after densification is complete.
P. Whittle, J. Stringer, Proc. R. Soc. Lond. A, 295 (1980) 309. [19] M. J. Stiger, N. M. Yanar, M. G. Topping, F. S. Pettit, G. H. Meier, Z. , 90 (1999) 1069. [20] D. S. Rickerby, S. R. Bell, R. G. Wing, U. S. Patent, No. 5667663, 1997 [21] J. R. , 28 (2003) 659. [22] B. Gleeson, W. Wang, S. Hayashi, D. Sordelet, Mater. Sci. Forum, 461-464 (2004) 213. [23] B. A. Pint, I. G. Wright, W. Y. Lee, Y. Zhang, K. Prubner, K. B. Alexander, Mater. Sci. Eng. , Ping Xiao and Brian Ralph 25 (1998) 201. [24] U.