Electrorhelogical Fluids, Second International Conference ProceedingsJ. David Carlson, A.F. Sprecher, Hans Conrad |
Contents
Viscoelastic Behaviour of Electrorheological Fluids | 3 |
Dynamic Simulation of a Suspension of Dielectric Particles Forming | 27 |
ER Fluid Modelling | 41 |
Copyright | |
18 other sections not shown
Common terms and phrases
active applied electric field base liquid beam behavior Bingham brake carrier fluid characteristics concentration conductivity current density curve cylinder damper damping decrease dependence developed device dielectric constant dipole dispersed phase displacement dynamic effect EG shear stress electric field strength electrode Electrorheological Fluids electrostatic Electroviscous engine mount Equation ER fluid ER-fluid experimental fibrils flow rate force fraction frequency function geometry high voltage hydraulic hydrodynamic hysteresis increase interactions interparticle kV/mm load lubrication m/min magnetic magnitude material measured mechanical modulus observed parameters particle chains Phys piston plates polarization pressure drop problem properties radius range ratio relative response rheological rotation rotor sensor shear modulus shear rate shear stress shown in Figure silica silicone oil simulation speed spheres starch static yield strain structure surface suspension temperature torque valve velocity viscoelastic viscometer viscosity volume yield stress zeolite zero