@article{117226, author = {L. Bergstrom and C. H. Schilling and I.A. Aksay}, title = {CONSOLIDATION BEHAVIOR OF FLOCCULATED ALUMINA SUSPENSIONS}, abstract = { The consolidation behavior of flocculated alumina suspensions has been analyzed as a function of the interparticle energy. Consolidation was performed by a centrifugal force field or by gravity, and both the time-dependent and equilibrium density profiles were measured by a gamma-ray absorption technique. The interparticle energy at contact was controlled by adsorbing fatty acids of varying molecular weight at the alumina/decalin interface. We found that strongly attractive interactions result in a particle network which resists consolidation and shows compressible behavior over a large stress range. The most weakly flocculated suspension showed an essentially incompressible, homogeneous density profile after consolidation at different centrifugal speeds. We also found a significant variation in the maximum volume fraction, phi(m), obtained, with phi(m) almost-equal-to 0.54 for the most strongly flocculated suspension to phi(m) almost-equal-to 0.63 for the most weakly flocculated suspension. The compressive yield stresses show a behavior which can be fitted to a modified power law. In this paper, we discuss possible correlations between the fitting parameters and physical properties of the flocculated suspensions. }, year = {1992}, journal = {Journal of the American Ceramic Society}, volume = {75}, number = {12}, pages = {3305-3314}, month = {12/1992}, isbn = {0002-7820}, language = {eng}, }