Sage Journals: Discover world-class research

Abstract

The mechanism that generates chains between electrodes in electrorheological fluids is analyzed in terms of dielectric polarization. When an electric field is applied to electrorheological fluids, positive charges exist on the surfaces of suspended particles, aligned in the direction of the electric field, while negative charges exist on their surfaces in the opposite direction. The polarized particles are aligned in parallel with the direction of the electric field. The distance between adjacent particles depends on the value of dielectric mismatch. The interaction force between adjacent particles is given as a function of dielectric mismatch. The number of chains is proportional to the ratio of area of electrode to cross-sectional area of the particle.

Keywords

Electrorheological embedded intelligence magnetorheological

Get full access to this article

View all access options for this article.

References

Anderson

(1994) Electrostatic forces in an ideal spherical-particle electrorheological fluid. Langmuir 10(9): 2917–2928.

Chen

Zhang

Zitter

. (1993) Deformation of an electrorheological chain under flow. Journal of Applied Physics 74(2): 942–944.

Chen

Sprecher

Conrad

(1991) Electrostatic particle-particle interactions in electrorheological fluids. Journal of Applied Physics 70(11): 6796–6803.

Dassanayake

Fraden

Van Blaaderen

(2000) Structure of electrorheological fluids. Journal of Chemical Physics 112: 3851–3858.

Helsey

Toor

(1990) Structure of electrorheological fluids. Physical Review Letters 65: 2820.

Klingenberg

Zukoski

(1990) Studies on the steady-shear behavior of electrorheological suspensions. Langmuir 6(1): 15–24.

Lukkarinen

Kaski

(1998) Ground state symmetry of an electrorheological fluid containing two types of particles. International Journal of Modern Physics C 9: 591–606.

Sugimoto

(1994) Smart fluid requiring strength. Japanese Journal of Hydraulic and Pneumatic 25(7): 16–18 (in Japanese).

Sun

(2003) Ground state of a polydisperse electrorheological solid: beyond the dipole approximation. Physical Review E 67: 011506.

10.

Tao

Jiang

Sim

(1995) Finite-element analysis of electrostatic interactions in electrorheological fluids. Physical Review E 52(3): 2727–2735.

11.

Wang

Liu

Xiao

(2001) Dynamical modeling of the chain structure formation in electrorheological fluids. International Journal of Engineering Science 39: 453–475.

12.

Winslow

(1949) Induced fibration of suspensions. Journal of Applied Physics 20: 1137–1140.

13.

Yang

(1997) Tension and compression of electrorheological fluid. Journal of Colloid and Interface Science 192: 162–165.

Considering the cluster generation mechanism of electrorheological fluids due to dielectric polarization

Abstract

Keywords

Get full access to this article

References