On the Trail of Better Dispersion: Rheological Characterization of Moderately Loaded, Finely Balanced, Negatively Buoyant Ceramic Suspensions

References

• Aksay, I. A., Lange, F. F., and Davis, B. I., 1984, “Uniformity of alumina-zirconia composites by colloidal filtration.” Journal of the American Ceramic Society, 66, pp. 190–192.
   Web of Science ®Google Scholar
• Acrivos, A., Mauri, R., and Fan, X., 1993, “Shear–induced resuspension in a coquette device.” International Journal of Multiphase Flow, 19, pp. 797–802.
   Web of Science ®Google Scholar
• Abbot, J. R., Tellow, N, Graham, A. L., Altobelli, S. A., Fukushinma, E., Mondy, L. A., and Stevens, T. S., 1991, “Experimental observations of particle migration in concentrated suspensions: Couette flow.” Journal of Rheology, 35, pp. 773–795.
   Web of Science ®Google Scholar
• Altobelli, S. A., Givler, R. C., and Fukushinma, E., 1991, “Velocity and concentration measurements of suspensions by nuclear magnetic resonance imaging.” Journal of Rheology 35, pp. 721–734.
   Web of Science ®Google Scholar
• Amateau, M. F. and Messing, G. L., 1990, “Laminated ceramic composites.” Penn State Centre Advanced Newsletter, 4(1), 75–78.
   Google Scholar
• Barnes, H. A., 1997, “Thixotropy- A review.” Journal of Non Newtonian Fluid Mechanics, 70, pp. 1–33.
   Web of Science ®Google Scholar
• Barnes, H. A., Hutton, J. F., and Walters, K., 1993, An Introduction to Rheology, Amsterdam: Elesvier Science Publishers.
   Google Scholar
• Bloyce, D. M., Ham-Su, R., Plucknett, K. P., and Wilkinson, D. S., 1993, “Tape casting of SiC platelet reinforced alumina.” Ceramic Transactions, 38, pp. 67–78.
   Google Scholar
• Boch, P. and Chartier, T., 1991, Tape casting and properties of mullite and zirconia-mullite ceramic. Journal of American Ceramic Society, 74(10), pp. 2448–2452.
   Web of Science ®Google Scholar
• Boch, P., Chartier, T., and Huttepain, M., 1986, “Tape casting of Al2O3/ZrO2 laminated composites.” Journal of American Ceramic Society, 69(8), C-191–C-192.
   Web of Science ®Google Scholar
• Bosis, G., Brady, J. F. and references therein, 1989, “The rheology of brownian suspensions.” The Journal of ChemicalPhysics, 91, 1866–1874.
   Google Scholar
• Bowen, H. K., 1980, “ Basic needs in high temperature ceramics.” Journal of Materials Science & Enggineering, 44, 156.
   Google Scholar
• Braun, L., Morris J. R. Jr., and Cannon, R. W., 1985, “Viscosity of tape casting slips.” American Ceramic Society Bulletin, 727–729.
   Google Scholar
• Carreau, P. J. and Cotton, F., 2002, Rheological Properties of Concentrated Suspensions Transport Processes in Bubbles, Drops and Particles, 2nd ed. (D. De Kee and R. P. Chhabra, Eds.), New York: Taylor and Francis, Ch. 16.
   Google Scholar
• Catheral, A. A., Melrose, J. R., and Ball, R. C., 2000, “Shear thickening and order-disorder effects in concentrated colloids at high shear rates.” Journal of Rheology, 44, pp. 1–25.
   Web of Science ®Google Scholar
• Cesarano, J. and Akshay, I. A., 1998, “Processing of highly concentrated aqueous alumina suspensions with polyelectolytes.” Journal of American Ceramic Society, 71, pp. 1062–1067.
   Web of Science ®Google Scholar
• Chapman, B. K. and Leighton, D. T. Jr, 1991, “Dynamic viscous resuspension.” International Multiphase Flow, 17, 469–483.
   Web of Science ®Google Scholar
• Chartier, T., Besson, J. L. and Boch, P., 1988, “Mechanical properties of ZrO2 -Al2O3 laminated composites.” In Advances in Ceramics, Science and Technology of Zirconia ІІІ, (S. Somiya, N. Yamamoto, and H. Hanagida, Eds.), Westerville, OH: American Ceramic Society, 24(B), pp. 1131–1138.
   Google Scholar
• Chartier, T., Jorge, E., and Boch, P., 1993, “ Dispersion properties of BaTiO3 tape casting slurries.” Journal of European Society, 11, 387–393.
   Google Scholar
• Chow, A. W., Sinton, S. W., Iwamiya, J. H., and Stephens, T. S., 1994, “Shear induced particle migration in Couette and parallel plate viscometers NMR imaging and stress measurements.” Physics Fluids, 6, 2561–2576.
   Web of Science ®Google Scholar
• Claaβen, T. and Claussen, N., 1992, “ Processing of ceramic- matrix/platelet composites by tape casting and lamination.” Journal of the European Cermic Society, 10, 263–271.
   Google Scholar
• Coussot, P., Nguyen, Q. D., Huynh, H. T., and Bonn, D., 2002, “Viscosity bifurcation in thixotropic yielding fluids.” Journal of Rhology, 46, pp. 573–589.
   Web of Science ®Google Scholar
• Eckstein, E. C., Bailey, D. G., and Shapiro, A. H., 1977, “Self diffusion of particles in shear flow in a suspension.” Journal of Fluid Mechanics, 79, 191–198.
   Web of Science ®Google Scholar
• Farr, R. S., Melrose, J. R., and Ball, R. C. 1997, “Kinetic theory of jamming in hard-sphere startup flows.” Physical Review E., 55, 7203–7211.
   Web of Science ®Google Scholar
• Foss, D. R. and Brady, J. F. 2000, “Structure, diffusion and rheology of Brownian suspensions of Stokesian dynamics simulation.” Journal of Fluid Mechanics, 407, 167–200.
   Web of Science ®Google Scholar
• Frank, M., Anderson, D., Weeks, E. R., and Morris, J. F. 2003, “ Particle migration in pressure driven flow of Brownian suspension.” Journal of Fluid Mechanics, 493, 363–378.
   Web of Science ®Google Scholar
• Gadla-Maria, F. and Acrivos, A., 1980, “Shear induced structure in a concentrated suspension of solid sphere.” Journal of Rhology, 24, 799–813.
   Web of Science ®Google Scholar
• Graham, A. L., Altobelli, S. A, Fukushima, E., Mondy, L. A., Mondy T. S. and Stephen, T. S., 1997, “NMR imaging of shear-induced diffusion and structure in concentrated suspensions undergoing couette flow.” Journal of Rheology, 41, 621–640.
   Web of Science ®Google Scholar
• Greenwood, R. and Bergstrom, L., 2008, “Electroacoustic and rheological properties of aqueous Ce- ZrO2 (Ce-TZP0) suspensions.” Journal of the European Ceramic Society, 17, 23–26.
   Google Scholar
• Gao, C. and Gilchrist, J. F., 2008, “Shear induced particle migration in one-, two-, and three dimensional flows.” Physical Review, E77, 025301(R).
   Google Scholar
• Gunes, D. Z., Sciroco, R., Mewis, J., and Vermant J. 2008, “Flow induced orientation of non – spherical particles; Effect of aspect ratio and medium rheology.” Journal of Non-Newtonian Fluid Mechanics, 155, 39–50.
   Web of Science ®Google Scholar
• Heinrich, J., Huber, J., Forster, S., and Quell, P. 1987, “Advanced ceramics as heat exchangers in domestic and industrial appliances.” International Ceramics, 7(1), 34–38.
   Google Scholar
• Hocken, J. 2005, The Additive for High Gloss Top Coats. Sachtleben Chemie GmbH, Germany: Technical Publications, pp. 1–12.
   Google Scholar
• Holmstrom, M., Chartier, T., Besson, J. L., and Boch, P., 1989, “Influence of ZrO2 on the preparation and properties of tape cast, laminated ZrO2 mullite composites.” In Euro- Ceramics, Processing of Ceramics, (G. de With, R. A. Terpstra, and R. Metselaar, Eds.), London, UK.: Elsevier Applied Science, Vol. 1. pp. 209–303.
   Google Scholar
• Huang, N., Ovarlez, G., Bertrand, F., Rodts, S., Cousst, P., and Bonn, D. 2005, “ Flow of wet granular materials.” Physcical Review Letters, 94, 028301.
   Web of Science ®Google Scholar
• Husband, D. M., Mondy, L., Ganani, E., and Graham, A. L., 1994, “Direct measurements of shear induced particle migration in suspension of bimodal spheres.” Rheologica Acta, 33, 185–192.
   Web of Science ®Google Scholar
• Ingber, M. S., Graham, A. L., Mondy, L. A., and Fang, Z. 2009, “An improved constitutive model for concentrated suspensions accounting for shear-induced particle migration rate dependence on particle radius.” International Journal of Multiphase Flow, 35, 270–276.
   Web of Science ®Google Scholar
• Jeffrey, D. J. and Acrivos, A., 1976, “The rheological properties of suspensions of rigid particles.” AIChE Journal, 22, 417–432.
   Web of Science ®Google Scholar
• Karas, A., Kumaga,i T., and Cannon, W. R. 1988, “Casting behaviour and tensile strength of cast BaTiO3 tape.” Advanced Ceramic Matterials 3(4), 374–77.
   Web of Science ®Google Scholar
• Khastagir, D. and Adachi, K. 2000, “Rheological & Dielectric studies of aggregation of barium titanate particles suspended in polydimethylsiloxane.” Polymer, 41, 6403–6413.
   Web of Science ®Google Scholar
• Krishnan, G. P., Beimfohr, S., and Leighton, D. T., 1996, “Shear induced radial segregation in bidisperse suspensions.” Journal of Fluid Mechanics, 321, 371–393.
   Web of Science ®Google Scholar
• Lange, F. F., 1989, “Powder processing science and technology for increased reliability.” Journal of American Ceramic Society, 72(1), 3–15.
   Web of Science ®Google Scholar
• Leighton, D. and Acrivos, A. 1986, “ Viscous resuspension.” Chemical Engineering Science 41, 1377–1384.
   Web of Science ®Google Scholar
• Leighton, D. and Acrivos, A., 1987a, “Measurement of shear – induced self-diffusion in concentrated suspension of spheres.” Journal of Fluid Mechanics, 177, 109–131.
   Web of Science ®Google Scholar
• Leighton, D. and Acrivos, A., 1987b, “The shear induced migration of particles in concentrated suspensions.” Journal of Fluid Mechanics, 181, 415–439.
   Web of Science ®Google Scholar
• MacKinnon, R. J. and Blum J. B., 1984, “Particle size distribution effects on tape casting barium titanate.” In Advances in Ceramics, Forming of Ceramics, (J. A. Mangels and G. L. Messing, Eds.), Westerville, OH: American Ceramic Society, Vol. 9, pp. 150–157.
   Google Scholar
• Macosko, C. W., 1994, Rheology: Principles, Measurements and Applications, New York: Wiley/ VC+1.
   Google Scholar
• Maiti, P., 2003, “Influence of miscibility on viscoelasticity, structure and intercalation of oligo-poly(caprolactone)/layered silicate nanocomposites.” Langmuir, 19, 5502–5510.
   Web of Science ®Google Scholar
• Mewis, J., 1979, “ Thixotropy- A general review.” Journal of Non-Newtonian Fluid Mechanics, 61–20.
   Google Scholar
• Mikeska, K. and Cannon W. R., 1984, “Dispersants for tape casting pure barium titanate.” In Advances in Ceramics, Vol., Forming of Ceramics, (J. A. Mangels and G. L. Messing, Eds.), Westerville, OH: American Ceramic Society, pp. 164–183. [Ce: not cited in text]
   Google Scholar
• Mill, C. C. 1959, Rheology of Disperse Systems, New York: Pergamon.
   Google Scholar
• Mistler, R. E. and Twiname E. R., 2000, “Tape-casting theory and practice.” American Chemical Society, pp. 64–65.
   Google Scholar
• Moller, P. C. F., Mewis, J. and Bonn, D., 2006, “Yield stress and thixotropy; on the difficulty of measuring yield stresses in practice.” Soft Matter, 2, 274–283.
   PubMed Web of Science ®Google Scholar
• Mukherjee, A., Khan, R., Bera, B., and Maiti, H. S., 2008, “I. dispersibility of robust alumina particles in non aqueous solution.” Ceramics International, 34, 523–529.
   Web of Science ®Google Scholar
• Mukherjee, A., Maiti, B., Sharma, A. D., Basu, R. N., and Maiti, H. S., 2001, “Correlation between slurry rheology, green density and sintered density of tape cast yttria stabilized zirconia.” Ceramics International, 27, 731–739.
   Web of Science ®Google Scholar
• Mukherjee, A. Sharma, D., Chauhan S.S., and Singh H.L. 2016, “Transient viscosities of negatively buoyant concentrated alumina suspension.” Asia-Pacific Journal of Chemical Engineering (accepted)
   Google Scholar
• Mukherjee, A, Sharma, D., Chauhan, S. S., and Singh, H., 2015, “Time dependent and Shear dependent transient viscosity of alumina suspension.” Journal of Dispersion Science and Technology, 36, 951–969.
   Web of Science ®Google Scholar
• Nagata, K. 1992, “Rheological behavior of suspension and properties of green sheet effect of compatibility between dispersant and binder.” Journal of Ceramic Society of Japan, 101, 1271–1275.
   Google Scholar
• O’Brien, R. W. 1990, “The electroacoustic equations for a colloidal suspension.” Journal of Fluid Mechanics, 212, 81–93.
   Web of Science ®Google Scholar
• O’Brien, R. W., Cannon, D. W., Rowlands, W. N., 1995, “Electroacoustic determination of particle size and zeta potential.” Journal of Colloid and Interface Science, 173, 406–418.
   Web of Science ®Google Scholar
• Onada, H., 1978, Ceramics Processing Before Firing. New York: John Wiley & Sons.
   Google Scholar
• Parfitt, G. D., 1969, Dispersion of Powders in Liquids. Elsevier Publishing Company Limited, pp. 81–83.
   Google Scholar
• Parsi, F. and Gadala- Maria, F., 1987, “Fore-and-aft asymmetry in a concentrated suspension of solid sphere.” Journal of Rhology, 31, 725.
   Web of Science ®Google Scholar
• Partridge, G., Elyard, C. A., and Datta, A. K., 1990, “Fabrication of glass- ceramics by tape casting.” In British Ceramic Proceedings Fabrication Processes, (R. W. Davidge and D. P. Thompson), Stoke- on- Trent, UK: The Institute of Ceramics, Vol. 45, pp. 123–129
   Google Scholar
• Paul, S., 1986, Surface coatings Science and Technology. NY: Wiley Interscience.
   Google Scholar
• Peterkidis, G., Moussaid, P. N., and Pusey P. N., 2002, “Rearrangements in hard sphere glasses under oscillatory shear strain.” Physical Review E., 66, 051402, 1–13.
   Google Scholar
• Phillips, R. J., Armstrong, R. C., and Brown, R. A., 1992, “A constitutive equation for concentrated–suspension that accounts for shear–induced particle migration.” Physics of Fluids, A, 4, 30–40.
   Web of Science ®Google Scholar
• Phung, T. N., Brady, J. F., and Bossis, G., 1996, “Simulation of Brownian suspensions.” Journal of Fluid Mechanics, 313, 181–207.
   Web of Science ®Google Scholar
• Plucknett, K. P., Caceres, C. H., and Wilkinson, D. S., 1994, “Tape casting of fine alumina/zirconia powders composite fabrication.” Journal of American Ceramics Society, 77, 2137–2144.
   Web of Science ®Google Scholar
• Portu, G. De, Fiori, C., and Sbaizero, O. 1988, “Fabrication, microstructure and properties of ZrO2- Toughened Al2O3 substrates.” In Advances in Ceramics, Science and Technology of Zirconia ІІІ. (S. Somiya, N. Yamamoto, and H. Hanagida, Eds.), Westerville, OH: American Ceramic Society, Vol. 24(B), pp. 1063–1073.
   Google Scholar
• Read, J. S. 1988, Introduction to the Principles of Ceramic Processing, New York: Wiley.
   Google Scholar
• Recktenwald, A., Lucke, M. H., and Muller, W., 1993, “Taylor vortex formulation in axial through flow; Linear and weakly non linear analysis.” Physical Review E 48, 4444–4454.
   PubMed Web of Science ®Google Scholar
• Rhodes, W. H., 1981, “Agglomeration of particle size affects sintering of Y2O3 stabilized zirconia.” Journal of American Ceramic Society, 64, 19–22.
   Web of Science ®Google Scholar
• Russel, W. D., Saville D. A., and Schowalter, W. R., 1989, Colloid Dispersions, Cambridge: Cambridge University Press.
   Google Scholar
• Sacks, M. D. and Khadilkar, C. S. 1983, “Milling and suspension behaviour of Al2O3 in methanol and methyl isobutyl ketone.” Journal of American Ceramic Society, 66, 488–494.
   Web of Science ®Google Scholar
• Sepulveda, J. L. and Kottman, R. E. 1992, “ High performance electronic substratesfrom tape casting of beryllium oxide.” In Ceramic Transactions Forming Science and Technology for Ceramics, (M. J. Cima, Ed.), Westerville, OH: American Ceramic Society, 26, pp. 211–218.
   Google Scholar
• Schaflunger, U., Acrivos, A., and Stibe, H., 1995, “An experimental study of viscous resuspension in a pressure driven plane channel flow.” International Journal of Multiphase Flow, 21, 697–704.
   Google Scholar
• Semwogerere, D., Morris, J. F., and Weeks, E. R., 2007, “Development of particle migration in pressure- driven flow of a Brownian suspension.” Journal of Fluid Mechanics 581, 437.
   Web of Science ®Google Scholar
• Schauly, A., Wachs, A., and Nir, A., 1998, “Shear induced particle migration in a polydisperse concentrated suspension.” Journal of Rheology, 42, 1329–1348.
   Web of Science ®Google Scholar
• Schauly, A., Wachs, A., and Nir, A., 2000, “Shear induced particle resuspension in settling polydisperse concentrated suspension.” International Journal of Multiphase flow, 26, 1–15.
   Web of Science ®Google Scholar
• Schramn, L. L. 2009, Emulsions, Foams and Suspension, 1st reprint, GmbH: Wiley- VCH.
   Google Scholar
• Shaw, D. T., 1980, Introduction to Colloid and Surface Chemistry, London: Butterworths.
   Google Scholar
• Shih, W. H., Kisailus, D. and Shih, W. Y., 1996, “Rheology and consolidation of colloidal alumina- coated silicon nitride suspension.” Journal of American Ceramic Society, 79, 1155–1162.
   Web of Science ®Google Scholar
• Standard Test Methods for Rheological Properties of Non-Newtonian Materials by Rotation (Brokfield type) viscometer, Designation D 2196–99, ASTM International, pp. 221–224 (1999).
   Google Scholar
• Streicher, E., Chartier, T., and Boch, P., 1990, “Influence of organic components on properties of tape-cast aluminium nitride substrates.” Ceramic International, 16, 247–252.
   Web of Science ®Google Scholar
• Tari, G. Ferreira, J. M. F., and Lyckfeldt, O., 1998, “Influence of the stabililising mechanism and solid loading on slip casting of alumina.” Journal of the European Ceramic Society, 18, 479.
   Google Scholar
• Traiphol, N., 2007, “Effects of ball milling time and dispersant concentration on properties of a lead zirconate titanate aqueous suspension for tape casting.” Journal of Ceramic Processing Research, 8, 137–141.
   Web of Science ®Google Scholar
• Tripathi, A. and Acrivos, A. 1999, “Viscous resuspension in a bidensity suspension.” International Journal of Multiphase Flow, 25, 1–14.
   Web of Science ®Google Scholar
• Ushifusa, N. and Cima, M., 1991, “Aqueous processing of mullite-containing green sheets.” Journal of American Ceramic Society 74, 2443–2447.
   Web of Science ®Google Scholar
• Voltz, C., Nitschke, M., Heyman, L., and Rehberg, I., 2002, “Thixotropy in macroscopic suspension of spheres.” Physical Review E, 65, 051402–5.
   Web of Science ®Google Scholar
• Watanabe, H., Kimura, T., and Yamaguchi, T., 1989, “Particle orientation during tape casting in the fabrication of grain- oriented bismuth titanate.” Journal of American Ceramic Society, 72(2), 289–293.
   Web of Science ®Google Scholar
• Wei, W.-C. J., Lu, S. J., and Yu, B.-K., 1995, “A characterization of submicron alumina dispersions with poly(methacrylic acid) polyelectrolytic.” Journal of European Society, 15, 155–164.
   Google Scholar
• Woodcock, L. V., and references therein, 1984, “Origins of shear dilatancy and shear thickening phenomena.” Chemical Physics Letter, 111, 455–460.
   Web of Science ®Google Scholar
• Wu, M. and Messing, G. L., 1994, “Fabrication of oriented SiC-whiker reinforced mullite matix composites by tape casting.” Journal of American Ceramic Society, 77, 2586–2592.
   Web of Science ®Google Scholar
• Yamamoto, J. K., Kata, K., and Shimada, Y. 1989, “Fabrication of controlled porosity in a tape cast glass ceramic substrate material.” Matterials Letters, 8(8), 278–282.
   Web of Science ®Google Scholar
• Yeh, T.-S. and Sack, M. D. 1987, “Low- temperature sintering of Aluminium oxide.” Journal of American Ceramic Society, 71, 841–844.
   Web of Science ®Google Scholar
• Zeng, Q. H., Yu, A. B., Lu, G. Q., and Paul, D. R., 2005, “Clay-based polymer nanocomposites; research and commercial development.” Journal of Nanoscience and Nanotechnology, 5(10), 1574–1592.
   PubMed Web of Science ®Google Scholar