Title :
New stabilizers and the search for higher solid volume fractions of nm-BaTiO3 particles suspended in hydrocarbon carrier liquids
Author :
Abendroth, J. ; Schurian, A. ; Bärner, K.
Author_Institution :
Andersen Consulting, Sulzbach, Frankfurt, Germany
Abstract :
Polydisperse suspensions of BaTiO3 particles prepared by milling in a ball mill have been characterized by quasi-elastic light scattering. A significant phase shift between the stimulating field and the Kerr signal is observed. The observed effects are explained by assuming a very thick surfactant layer (of about 10-20 nm) around the BaTiO3 particles. This is capable of explaining the phase shift because of the very high rotational relaxation constant of such large particles; then the phase shift is on the same scale as the relaxation time-constant. This can also explain the dependence of the Kerr effect on the peak value of the electric field, because the effective relaxation time decreases with increasing field strength
Keywords :
barium compounds; BaTiO3; Kerr signal; ball mill; effective relaxation time; electrofluids; ferroelectric liquids; field strength; higher solid volume fractions; hydrocarbon carrier liquids; milling; nanometre particles; phase shift; polydisperse suspensions; quasi-elastic light scattering; relaxation time-constant; rotational relaxation constant; stabilizers; stimulating field; surfactant layer; Birefringence; Ferroelectric materials; Hydrocarbons; Kerr effect; Liquids; Milling; Protection; Rotation measurement; Solids; Suspensions;
Conference_Titel :
Conduction and Breakdown in Dielectric Liquids,1993., ICDL '93., IEEE 11th International Conference on
Conference_Location :
Baden-Dattwil
Print_ISBN :
0-7803-0791-7
DOI :
10.1109/ICDL.1993.593990
