A brief introduction of the investigations on the interaction between electrostatic and fluid dynamic fields in electrostatic precipitators is presented, and sketchy proposals for further study of the electrohydrodynamic fields are recommended.

Vibration performance of electrorheological fluid-mortar cantilever beams;

Dynamic performance of cantilever mortar beams with electrorheological fluid filled in a central crack;

Rheological properties of the ER fluids were measured with a rotational rheometer.

In this paper, the factor influcing the ER effect,the current theories on the mechanism of this phenomenon,and the application of ER fluids have been reviewed.

Rheological properties of the ER fluids were measured with a rotational rheometer.

The main factor to determine material performance of electrorheological fluids is the choice of their dispersion.

The experimental investigations were focused on evaluating the elastodynamic response characteristics of beams featuring electrorheological fluids when the beams were subjected to forced vibration.

In this paper,forced ocsillation experiments of electrorheological fluids have been studied by HAAKE RS600 rheometer and the changes of ERF storage modulus,loss modulus and loss factor with shear stress and shear frequency are obtained for different shear stress rates and oscillation frequencies.