Ying Dan Liu

TL;DR: In this article, a review of electrorheological fluid, a special type of suspension with controllable fluidity by an electric field, generally contains semiconducting or polarizable materials as electro-responsive parts.

TL;DR: In this paper, the potential applications of magnetorheological suspensions along with their rheological and electro-conductive properties under an applied magnetic field are reviewed, and the range of potential engineering applications of their linear and revolving vibrations include shock absorbers, dampers, clutches, magneto-resistors, magnetic field sensors and ultrafine polishing technology.

TL;DR: In this paper, a core-shell structured polystyrene (PS) and graphene oxide (GO) microspherical particles were synthesized by adsorbing the GO sheets on the PS surface through a strong π-π stacking interaction.

TL;DR: The dispersion stability of soft magnetic carbonyl iron (CI)-based magnetorheological (MR) fluids was improved by applying a unique functional coating composed of a conducting polyaniline layer and a multiwalled carbon nanotube nest to the surfaces of the CI particles via conventional dispersion polymerization, followed by facile solvent casting.

TL;DR: Core-shell structured semiconducting snowman-like particles were synthesized, and their electrorheological characteristics under an applied electric field were examined, showing unusual ER properties in the flow curves at various electric field strengths when analyzed using the Cho-Choi-Jhon model.