Title: A HIGHLY ACTIVE ELECTRORHEOLOGICAL MATERIAL, NANO-SIZED BOEHMITE: INFLUENCE OF HYDROXYL ON ITS ELECTRORHEOLOGICAL PROPERTY.
Authors: Huo, Li; Liao, Fu-Hui; Li, Jun-Ran; Zhang, Shao-Hua; Zhang, Olivia; Xu, Ming-Yuan
Abstract: A highly active electrorheological (ER) material, nano-sized boehmite, AlO(OH), has been obtained. The relative shear stress (τr = τE/τ0, τ0 and τE are the shear stresses at the electric field strength of 0 kV/mm and 4.2 kV/mm, respectively) of the suspension (25 wt.%) in silicone oil reached 212 at a shear rate of 14.5 s-1 and a DC electric field. The dielectric property, conductivity, surface energy, microstructure, and composition of boehmite [AlO(OH)] and alkaline alumina containing both AlO(OH) and Al2O3 have been studied. The results showed that the hydroxyl group plays a critical role in influencing the ER activity of the material by changing the dielectric property and conductivity of the material.
Subjects: BOEHMITE; ELECTROMAGNETIC fields; MICROSTRUCTURE; STRAINS & stresses (Mechanics); ELECTRIC fields; MICROMECHANICS
Publication: Chemical Engineering Communications, 2010, Vol 197, Issue 5, p684
ISSN: 0098-6445
Publication type: Academic Journal
DOI: 10.1080/00986440903287809

A HIGHLY ACTIVE ELECTRORHEOLOGICAL MATERIAL, NANO-SIZED BOEHMITE: INFLUENCE OF HYDROXYL ON ITS ELECTRORHEOLOGICAL PROPERTY.

Huo, Li; Liao, Fu-Hui; Li, Jun-Ran; Zhang, Shao-Hua; Zhang, Olivia; Xu, Ming-Yuan