Ceramic and Glass Materials
38 D.J. Duval et al.
- D.J. Cassidy, J.L. Woolfrey, and J.R. Bartlett, The effect of precursor chemistry on the
crystallisation and densification of sol–gel derived mullite gels and powders, J. Sol–Gel Sci.
Te c h. 10 , 19–30 (1997).
- I.M. Low and R. McPherson, The Origins of Mullite Formation, J. Mat. Sci. 24 (3), 926–936
(1989).
- A. Kumar Chakravorty and D. Kumar Ghosh, Synthesis and 980°C phase development of some
mullite gels, J. Am. Ceram. Soc. 71 (11), 978–87 (1988).
- J.P. Pollinger and G.L. Messing, Metastable solid solution extension of mullite by rapid
solidification,J. Mat. Res. 3 (2), 375–379 (1988).
- H. Schneider and T. Rymon-Lipinski, Occurrence of pseudotetragonal mullite, J. Am. Ceram.
Soc. 71 (3), C162–C164 (1988).
- M. Sales and J. Alarcon, Synthesis and phase transformations of mullites obtained from
SiO 2 −Al 2 O 3 Gels J. Eur. Ceram. Soc. 16 , 781–789 (1996).
- H. Schneider, R. X. Fischer, and D. Voll, Mullite with lattice constants a > b,J. Am. Ceram. Soc.
76 (7), 1879–1881 (1993).
- R.X. Fischer, H. Schneider, and D. Voll, Formation of aluminum rich 9:1 mullite and its
transformation to low alumina mullite upon heating, J. Eur. Ceram. Soc. 16 , 109–13 (1996).
- N. L. Bowen and J. W. Grieg, “The System Al 2 O 3 −SiO 2 ,” J. Am. Ceram. Soc. 7 , 238–54 (1924).
- E.C. Shears and W.A. Archibald, Aluminosilicate refractories, Iron Steel 27 , 26–30 and 61–65
(1954).
- N.A. Toropov and F. Ya. Galakhov, Solid solutions in the system Al 2 O 3 −SiO 2 ,Izv. Aka. Nauk
SSSR Otd. Khim. Nauk 1958 , 8 (1958).
- S. Aramaki and R. Roy, Revised equilibrium diagram for the system Al 2 O 3 ,J. Am. Ceram. Soc.
45 (5), 229–222 (1962).
- I.A. Aksay and J. A. Pask, Stable and metastable phase equilibria in the system Al 2 O 3 −SiO 2 ,
J. Am. Ceram. Soc. 58 (11–12), 507–512 (1975).
- T.J. Mroz, Microstructural Evolution of Mullite Formed by Reaction Sintering of Sol-Gels, MS
Thesis, Dept. of Cer. Eng., Alfred University, Alfred, NY, 1988.
- J.C. Huling and G.L. Messing, Epitactic nucleation of spinel in aluminum silicate gels and effect
on mullite crystallization, J. Am. Ceram. Soc. 74 (10), 2374–2381 (1991).
- S. Sundaresan and I.A. Aksay, Mullitization of diphasic aluminosilicate gels, J. Am. Ceram. Soc.
74 (10), 2388–2392 (1991).
- M.D. Sacks, Y.-J. Lin, G.W. Scheiffele, K. Wang, and N. Bozkurt, Effect of seeding on phase
development, densification behavior, and microstructure evolution in mullite fabricated from
microcomposite particles, J Am. Ceram. Soc. 78 (11), 2897–2906 (1995).
- R.F. Davis and J.A. Pask, Diffusion and reaction studies in the system Al 2 O 3 −SiO 2 ,J. Am. Ceram.
Soc. 55 (10), 525–531 (1972).
- S.H. Risbud and J.A. Pask, Mullite crystallization from SiO 2 −Al 2 O 3 melts, J. Am. Ceram. Soc.
61 (1–2), 63–67 (1978).
- C.G. Bergeron and S.H. Risbud, Introduction to Phase Equilibria in Ceramics, Am. Ceram. Soc.,
Columbus, OH, 1984.
- F.J. Klug, S. Prochazka, and R.H. Doremus, Alumina–silica phase diagram in the mullite region,
J. Am. Ceram. Soc. 70 , 750–759 (1987).
- J.A. Pask, The Al 2 O 3 −SiO 2 system: logical analysis of phenomenological experimental data, in
Ceramic Microstructures: Control at the Atomic Level, A.P. Tomsia and A.M. Glaeser (eds.),
Plenum, New York, NY, 1998, pp.255–262.
- W.E. Worrall, Clays and Ceramic Raw Materials, Halsted Press, New York, NY, 1975, pp. 151–152.
- D.G. Goski and W.F. Caley, Reaction sintering of kyanite and alumina to form mullite
composites,Can. Metall. Q. 38 (2), 119–126 (1999).
- S. Prochazka and F.J. Klug, Infrared-transparent mullite ceramics, J. Am. Ceram. Soc., 66 ,
874–880 (1983).
- Y.M.M. Al-jarsha, H.G. Emblem, K. Jones, M.A. Mohd, A.B.D. Rahman, T.J. Davies,
R. Wakefield, and G.K. Sargeant, Preparation, characterization and uses of mullite grain, J. Mat.
Sci. 25 (6), 2873–2880 (1990).
- R.D. Nixon, S. Chevacharoenkul, and R.F. Davis, Creep of hot-pressed SiC-Whisker-reinforced
mullite,Ceram. Trans. 6 , 579–603 (1990).
- H. Schneider, K. Okada, and J.A. Pask, Mullite and Mullite Ceramics, Wiley, New York, NY,
1994.
