Advances and Applications in Mechanical Engineering and Technology[1] R. Román, T. Hernández and M. González, Nano or micro grained
alumina powder? A choose before sintering, Boletin de la Sociedad
Espanola de Ceramica Vidrio 47(6) (2008), 311-318.
[2] S. C. Shen, Q. Chen, P. S. Chow, G. H. Tan, X. T. Zeng, Z. Wang
and Reginald B. H. Tan, Steam-assisted solid wet-gel synthesis of
high-quality nanorods of boehmite and alumina, J. Phys. Chem. C.
111(2) (2007), 700-707.
[3] C. Agrafiotis and A. Tsetsekou, The effect of powder
characteristics on washcoat quality, Part I: Alumina washcoats,
Journal of the European Ceramic Society 20(7) (2000), 815-824.
[4] Z. Ramli and R. Saleh, Preparation of ordered mesoporous alumina
particles via simple precipitation method, Journal of Fundamental
Sciences 4(2) (2008), 435-443.
[5] H. S. Potdar, K. W. Jun, J. W. Bae, S. M. Kim and Y. J. Lee,
Synthesis of nano-sized porous 
powder via a precipitation/digestion route,
Applied Catalysis A: General 321(2) (2007), 109-116.
[6] S. Sugita, C. Contreras, H. Juárez, A. Aguilera and J. Serrato,
Homogeneous precipitation and phase transformation of mullite ceramic
precursor, International Journal of Inorganic Materials 3(7)
(2001), 625-632.
[7] V. K. La Mer and R. H. Dinegar, Theory, production and mechanism
of formation of monodispersed hydrosols, J. Am. Ceram. Soc. 72(11)
(1950), 4847-4854.
[8] A. C. Vieira Coelho, G. A. Rocha, P. Souza Santos, H. Souza Santos
and P. K. Kiyohara, Specific surface area and structures of aluminas
from fibrillar pseudoboehmite, Revista Matéria 13(2) (2008),
329-341.
[9] N. Lepot, M. K. Van Bael, H. Van den Rul, J. D’Haen, R. Peeters,
D. Franco and J. Mullens, Synthesis of platelet-shaped boehmite and
nanoparticles via an aqueous route,
Ceramics International 34(8) (2008), 1971-1974.
[10] M. N. Rahaman, Ceramic Processing and Sintering, Marcel Dekker,
Inc., New York, (1995), 115.
[11] R. Tettenhorst and D. A. Hofmann, Crystal chemistry of boehmite,
Clays and Clay Minerals 28(5) (1980), 373-380.
[12] H. Hunuma, S. Kato, T. Ota and M. Takahashi, Homogeneous
precipitation of alumina precursors via enzymatic decomposition of
urea, Advanced Powder Technology 9(2) (1998), 181-190.
[13] P. Souza Santos, H. Souza Santos and S. P. Toledo, Standard
transition aluminas, electron microscopy studies, Materials Research
3(4) (2000), 104-114.
[14] S. Nath and G. R. Satpathy, A systematic approach for
investigation of spray drying processes, Drying Technology 16(6)
(1998), 1173-1193.
[15] M. K. Naskar and M. Chatterjee, Boehmite nanoparticles by the
two-reverse emulsion technique, J. Amer. Ceram. Soc. 88(12) (2005),
3322-3326.
[16] S. J. Lukasiewicz, Spray-drying ceramic powders, J. Amer. Ceram.
Soc. 72(4) (1989), 617-240.
[17] A. Violante and P. M. Huang, Identification of pseudoboehmite in
mixtures with phyllosilicates, Clay Minerals 29(3) (1994), 351-359.
[18] C. Tallón, M. Yates, R. Moreno and M. I. Nieto, Porosity of
freeze-dried 
powders, Ceramics International 33(5)
(2007), 1165-1169.
[19] F. P. Faria, P. Souza Santos and H. Souza Santos, Spatial
arrangement of fibrils in concentrated aqueous sols of fibrillar
pseudoboehmite, Materials Chemistry and Physics 76(3) (2002),
267-273.
[20] E. M. Moroz, K. I. Shefer, D. A. Zyuzin, A. S. Ivanova, E. V.
Kulko, V. V. Goidin and V. V. Molchanov, Local structure of
pseudoboehmite, React. Kinet. Catal. Lett. 87(2) (2006),
367-375.
[21] M. Mazaheri, A. M. Zahedi and S. K. Sadrnezhaad, Two-step
sintering of nanocrystalline ZnO compacts: Effect of temperature on
densification and grain growth, Journal of the American Ceramics
Society 91(1) (2008), 56-63.
[22] D. Y. Li, Y. S. Lin, Y. C. Li, D. L. Shieh and J. L. Lin,
Synthesis of mesoporous pseudoboehmite and alumina templated with
1-hexadecyl-2,3-dimethylimidazolium chloride, Microporous and
Mesoporous Materials 108(1-3) (2008), 276-282.
