A microstructural investigation of the nonlinear response of electrorheological suspensions

In surfactant-activated electrorheological (ER) suspensions it is observed that the ER response shows linear ER behavior (F ∝ E 2 ) at small surfactant concentrations and nonlinear ER behavior (F ∝ E n , n ≈ 1) at large surfactant concentrations. Here, a surfactant bridge model is developed to expla

Polyaniline-coated copoly (styrene styrenesulphonate) (PSS) particles were prepared by oxidative polymerization of aniline hydrochloride using ammonium persulphate in the presence of anionic PSS particles. Polyanilinecoated PSS particles were found to be higher dispersibility than polyaniline itself

of nonaqueous silica suspension is greatly enhanced upon We considered the electrorheological (ER) properties of an anapplication of a strong electric field (1). This behavior was hydrous suspension based on a semiconducting polymer. In order seen as instrumental in developing many mechanical applit

Electrorheological response was experimentally studied by the use of silicone oil suspensions containing submicrometer-sized and supermicrometer-sized silica particles with different amounts of adsorbed water. The simultaneous measurements of dielectric permittivity and shear stress of the suspensio