electrorheological fluids and magnetorheological · pdf fileelectrorheological fluids and...
Post on 06-Feb-2018
248 Views
Preview:
TRANSCRIPT
Proceedings of the Eighth International Conference
ElectrorheologicalFluids andMagnetorheologicalSuspensionsNice, France 9 - 1 3 July, 2001
G. BossisNice University, France
UNlVERSITATSBiBLIOTHEKHANDOVER
TECH Hi SOMEINFORMATION S-?(BL?OT«-!FK
World Scientifici ^ New Jersey London'Singapore *Hong Kong
CONTENTS
Preface
I. APPLICATIONS
Multiple Application of Magnetorheological Effect in High PrecisionFinishing
W. Kordonski and A. Don Golini 3
New Microscopic Polishing with Magnetic Compound Fluid (MCF)K. Shimada, Y. Akagami, S. Kamiyama, T. Fujita,T. Miyazaki and A. Shibayama 9
Impact of Droplets of Magneto-Rheological Suspension under AppliedMagnetic Fields
S. Sudo, M. Funaoka and H. Nishiyama 16
Caster-Walker with Intelligent Brakes Employing ER Fluid Composed ofLiquid Crystalline Polysiloxane
A. Inoue, U. Ryu and S. Nishimura 23
Lyapunov-based Control of a Bridge using Magneto-RheologicalFluid Dampers
X. Wang and F. Gordaninejad 30
Industrial Benefits of ERF-Technology (A Development Report from theIndustry)
D. Adams and L. Johnston 37
Vibration Isolation of Structural Systems using Squeeze ModeER Mount
S. R. Hong, S. B. Choi, W. J. Jung and W. B. Jeong 43
The Rheological Characteristics of Electrorheological Fluids in DynamicSqueeze
A. K. El Wahed and J. L. Sproston 50
Development of ER Brake and Its Application to Passive Force DisplayJ. Furusho, M. Sakaguchi, N. Takesue and K. Koyanagi 57
What Makes a Good MR Fluid?J. David Carlson 53
ix
Study on the Vibration Attenuation of a Driver Seat using an MR FluidDamper
Y. Lee and D. Jeon 70
Electrorheological Damper Analysis using an Eyring ConstitutiveRelationship
L. Bitman, Y.-T. Choi and N. M. Wereley 77
Investigation of Dynamic Properties and Control Method Influences onMR Fluid Dampers Performance
A. Milecki, A. Myszkowski and D. Sedziak 84
Design of the Electrorheological Shock Absorber5. Zhang and M. Li 91
Fundamental Tribology: ESFW. A. Bullough, P. L. Wong, C. Feng and W. C. Leung 97
Heat Transfer from an ESF Radial Plate Clutch SurfaceD. J. Ellam, W. A. Bullough and V. Oravsky 104
Vibration Control of a Helicopter Tail Landing Gear System usingElectrorheological and Magnetorheological Shock Struts
Y.-T. Choi and N. M. Wereley 111
Electro-Structured Fluid SealsR. J. Atkin, D. J. Ellam and W. A. Bullough 118
Experimental Investigations of the Effects of Electrode Geometry on thePerformance of Electrorheological Fluid Valves
G. Georgiades and S. O. Oyadiji 125
Controlling Tube Vibrations using Electrorheological Fluids5. 0. Oyadiji 132
Nontraditional ERF-based Devices and TechnologiesE. V. Korobko 139
Embolization of Blood Vessels as a Cancer Therapy usingMagnetorheological Fluids
G. A. Flores and J. Liu 146
XI
Impedance Control of a One Shaft-Type Clutch using HomogeneousElectrorheological Fluid
T. Nakamura, N. Saga and M. Nakazawa 153
Evaluation of Magnetorheological Suspension in a Shock Absorber and ina Magnetorheometer
A. J. F. Bombard, M. Knobel and I. Joekes 160
Electrostriction Effect in Solid-State Electro-Rheological Composites forSensing Applications
G. H. Kim and Y. M. Shkel 167
ER Effects of Liquid Crystalline Polymers on One-Sided PatternElectrodes
N. Takesue, J. Furusho and M. Sakaguchi 174
A Study on the Performance Estimation on Semi-Active SuspensionSystem Considering the Response Time of Electro-Rheological Fluid
M. S. Yeo, H. G. Lee and M. C. Kim 180
Comparative Analysis of the Time Response of Electro-Rheological andMagnetorheological Dampers using Nondimensional Parameters
Y.-T. Choi and N. M. Wereley 187
A Bearing Application using Magnetorheological FluidsA. Agrawal, C. Ciocanel, T. Martinez, S. L. Vieira,N. G. Naganathan, S. Robb and J. Duggan 194
Study of the Behavior of MR Fluids in Squeeze, Torsional andValve Modes
P. Kulkarni, C. Ciocanel, S. L. Vieira and N. Naganathan 201
Electric Power and Efficiency under A.C. Electric Field on a RotatingDevice of Disk Type with Suspension-Type Electrorheological Fluid
K. Shimada, H. Nishida and Y. Akagami 208
Torque and Current Density on a Rotating Device of Disk Type underA.C. Electric Field with Suspension Type Electrorheological Fluid
K. Shimada and H. Nishida 215
Three-Ports Micro ER Valve for ER Suspension Fabricated byPhotolithography
M. Nakano, K. Katou, A. Satou, K. Miyata and K. Matsushita 222
XII
Electrorheological Semi-Active Damper/Polyaniline based ER SystemJ. W. Kim, Y. H. Cho, H. J. Choi, H. G. Lee and S. B. Choi 229
Using of Ferromagnetic Particles Suspension as Controllable DissipativeEnvironment
V. G. Bashtovoi, D. N. Kabachnikov and G. Bossis 236
Semiactive Vibration Control of a Smart Seat with an MR Fluid DamperConsidering its Time Delay
C. Park and D. Jeon 243
Thermal Effects of a Homogeneous ER Fluid DeviceT. Nakamura, N. Saga and M. Nakazawa 249
Performance Analysis of Smart Impact Damper System usingHerschel-Bulkley Model
D.-Y. Lee, Y.-T. Choi and N. M. Wereley 256
Numerical Simulation of MR Fluids Damping Characteristics usingModified Bingham Model
H. Nishiyama, S. Fushimi and M. Nakano 263
Electrosensitive Fluids in Acoustic DevicesA. S. Rubanov and A. O. Karabko 270
Electronics and Mechanics — A Balance Act in ERF-ApplicationsL. Johnston, H. Rosenfeldt and M. Kramer 277
Design of a High-Efficiency Magnetorheological ValveJ.-H. Yoo and N. M. Wereley 281
Active Control of Rod Vibrations, using Magnetic FluidsZ. Wang, G. Bossis, O. Volkova, V. Bashtovoi and M. Krakov 288
Performance Evaluation of ER Shock Damper Subjected toImpulse Excitation
H. J. Song, S. B. Choi, J. H. Kim and K. S. Kim 295
Vibration Control Evaluation of a Commercial Vehicle FeaturingMR Seat Damper
M. H. Nam, Y. M. Han, S. S. Han, H. G. Lee,S. B. Choi and C. C. Cheong 302
XIII
MR Inserts for Shock Wave Reduction in Warship StructuresJ. K. Kim, B. W. Kang, Y. K. Kang, S. B. Choi and K. S. Kim 309
Vibration Control of a Wire Cut Discharge Machine using ERBrake Actuator
K. S. Kim, S. B. Choi and M. S. Cho 316
A Simple One Dimension Robot Joint based on the ER Linear ReversingMechanism
K. P. Tan, W. A. Bullough, R. Stanway, N. Sims,A. R. Johnson and R. C. Tozer 323
II. MICROSTRUCTURES
Structures in Magnetic Suspension Submitted to Unidirectional andRotating Field
P. Carletto, G. Bossis and A. Cebers 331
Lamellar Structures Induced by Coupled Electro-Magnetic and ShearFields: A Defining Character of ER/MR Activity
S. Henley and F. E. Filisko 338
Chain Rotational Dynamics in MR SuspensionS. Melle, 0. G. Calderon, M. A. Rubio and G. G. Fuller 345
The Interaction Between Electrorheological Particles in A.C. ElectricField Studied using Optical Tweezers
J. Xu, X. Dong, Z. Y. Chen, Y. G. Jiang and L. W. Zhou 352
Magnetic Interactions of Chains Formed by Ferro-Magnetic SpheresS. Lads, F. Zavickis and G. Bossis 359
Particle Dynamics of Structure Formation and Disintegration in a ModelMagnetorheological Fluid
S. Cutillas and J. Liu 366
Short Time Dynamic Structure Formation of Carbon-Doped TIO2 ERFluids with Different Conductivity using Diffusing Wave Spectroscopy
L. F. Zhang, X. Dong, J. Xu, Y. G. Jiang and L. W. Zhou 373
Monodisperse Colloidal Suspensions of Silica and PMMA Spheres asModel Electrorheological Fluids: A Real-Space Study of StructureFormation
A. Yethiraj and A. Van Blaaderen 380
XIV
Polarization of Non-Equilibrium Double Layer and Agglomeration ofPolyelectrolyte Balls
A. Cebers and I. Rubinstein 386
Electric-Field-Induced Lamellar Structures in Magnetic Fluids - A 2DDiffusion Model
B. Riley, A. Bhattacharya, M. Johnson, X. Duan and W. Luo 393
Hexagon-Stripe Transition at the Magnetic Field Induced PhaseTransformations of the Magnetorheological Suspensions
A. Cebers 397
Equilibrium Patterns of Chain Clusters Composed of FerromagneticParticles in an External Magnetic Field
T. Ukai, T. Maekawa and H. Morimoto 404
Equilibrium and Dynamic Analyses of Magnetic Characteristics of aTriangular Ferromagnetic Lattice System
T. Ukai, T. Maekawa and H. Morimoto 409
Field Induced Phase Transition for Suspension of Monosized SpheresS. Men, A. Meunier, C. Metayer and G. Bossis 415
Relationship Between Chain Structures and Viscosity in theMagneto-Rheological Suspensions Stable Dispersing DifferentConcentration of Iron Particles with Smectite
A. Shibayama, T. Miyazaki, T. Otomo,T. Fujita and K. Shimada 422
III. MATERIAL PROPERTIES
Effect of Rare Earth Substitution on Electrorheological Propertiesof TIO2
X. P. Zhao, J. B. Yin, L. Q. Xiang and Q. Zhao 431
Electrorheological Effect in Suspensions AgI/Ag2O/V2O5/P2Os GlassesM. Osuchowski and J. Plocharski 438
Chain Behavior in Model Homogenous ER Fluids Dependingon Temperature
H. Okamura, K. Suzuki, T. Mori, K. Minagawa,S. Masuda and M. Tanaka 445
XV
Behavior of Magnetorheological Fluids Utilizing Nanopowder IronN. Rosenfeld, N. M. Wereley, R. Radakrishwan andT. Sudarshan 452
Protein-Fg MR Fluid and Its PropertiesL. Hu, S. Cai and C. Zhang 459
Electro-Magnetorheological Fluids Dispersing Zeolite Particles ContainingIron
A. Shibayama, T. Miyazaki, K. Yamaguchi,K. Murakami and T. Fujita 465
Magnetostrictive Phenomena in Magnetorheological ElastomersJ. M. Ginder, S. M. Clark, W. F. Schlotter and M. E. Nichols 472
Compressive Modulus of Ferrite Containing Polymers GelsT. Mitsumata, K. Furukawa, E. Juliac,K. Iwakura and K. Koyama 479
The Dynamics of Magnetorheological Elastomers Studied by SynchrotonRadiation Speckle Analysis
W. F. Shlotter, C. Cionca, S. S. Paruchuri, J. B. Cuningham,E. Dufresne, S. B. Dierker, D. Arms and R. Clarke 486
Electroviscoelastic Properties in ER Gel of Disperse System under DCElectric Field
R. Hanaoka, S. Takata, H. Fujita, T. Fukami, K. Sakurai,K. Isobe and T. Hino 493
Soft Gels with Ordered Iron Particles: Fabrication and ElectrorheologicalResponse
Y. An, B. Liu and M. T. Shaw 500
Field Dependence of Viscoelestic Properties of MR ElastomersC. Bellan and G. Bossis 507
Isotropic Magnetorheological Nitrile Rubbers with Large Iron ParticlesM. Lokander and B. Stenberg 514
A New Organic/Inorganic Hybrid with High Electrorheological ActivityX. P. Zhao and X. Duan 519
Influence of Surfactants on Properties of Electro-Rheological FluidsContaining Polyaniline
M. Bocinska, H. Wycislik, M. Osuchowski and J. Plocharski 526
Reversibility of the ER Effect in Immiscible Liquid BlendsS. Yamamoto, Y. Masubuchi, J.-I. Takimoto and K. Koyama 533
Electric-Field Response of the Structure and Rheological Property ofSilicone/Polyether Blends
K. Minagawa, K. Saitoh, H. Okamura, T. Mori,S. Masuda and M. Tanaka 539
Novel Electrorheological Materials with Ternary Blends ContainingPolyethers and Urethanes
K. Minagawa, T. Kanno, H. Okamura, T. Mori, S. Masuda,H. Takagi, K. Koyama and M. Tanaka 546
ER Response of Silicone Gel Containing Dielectric ParticlesJ. Koide, T. Mitsumata, Y. Masubuchi,J.-I. Takimoto and K. Koyama 552
Synthesis and Electrorheology of Phosphate Cellulose SuspensionsJ. W. Kim, Y. H. Cho, H. J. Choi and M. S. Jhon 557
Effect of Surface Modification of Colloidal Silica on ElectrorheologicalProperties
C. Gehin and J. Persello 564
Electrorheology of Amine Dispersant Coated Chitosan PhosphateSuspension
U.S. Choi and Y.-G. Ko 571
Electrorheological Behavior of Chitosan Dicarboxylate SuspensionsU.S. Choi and Y.-G. Ko 577
Electrorheology of Polyaniline-Coated Poly(methyl-methacrylate)Microsphere Suspensions in Silicone Oil
H. J. Choi, Y. H. Cho, M. S. Cho and M. S. Jhon 583
Synthesis and Electrorheology of Mesoporous Particle SuspensionsH. J. Choi, M. S. Cho and W.-S. Ahn 590
Electrorheological Behaviors of Polyaniline-MontmorilloniteClay Nanocomposite
J. Lu and X. Zhao 597
XVII
IV. PHYSICAL MECHANISMS
Electric-Field Induced Formation of Superconducting Granular BallsR. Tao, X. Xu and Y. C. Lan 607
Granular Flow in the Presence of an Electric FieldK. Lu, W. Chen, M. Hou and Z. Jian 614
The Contribution of Columnar Structure to the Stress in ER PolymericBlends in a Shear Flow
P. Riha, J. Takimoto, Y. Masubuchi and K. Koyama 620
Effects of Shape and Size of Dispersoid on ElectrorheologyA. Kawai, K. Uchida and F. Ikazaki 626
ER Properties and Flow Induced Microstructures of an ER Fluid BetweenTwo Parallel Disk Electrodes in Squeeze Flow Mode
M. Nakano and T. Nagata 633
The Significance of Flow-Modified Permittivity: A New Model andComputer Simulation of Electrorheology
Y. Hu, E.-Y. E. Lin and U. M. Dassanayake 640
ER Effect of Liquid Crystal Flowing Between Two Parallel-PlateElectrodes
T. Tsukiji and S. Tanabe 647
Effect of Magnetic Hysteresis of the Solid Phase on the RheologicalProperties of MR Fluids
J. De Vicente, J. D. G. Duran, A. V. Delgado,F. Gonzalez- Caballero and G. Bossis 654
Rheological and Dielectric Characterization of Electrorheological FluidsComposed of Both Dispersed Particles and Liquid Drops in DielectricMedium
L. Rejon, L. Garcia and 0. Manero 661
Optical Attenuation in a Magnetic Fluid Film under PerpendicularMagnetic Fields
C.-Y. Hong, S. Y. Yang, H. E. Horng and H. C. Yang 668
Heat Transfer from an ESF Radial Plate Clutch SurfacePart 2 - Theory
V. Oravsky 673
XVIII
The Uniform Magnetic Field Influence on the Magnetic Fluid MeniscusMotion in the Cylindrical Capillary
V. Bashtovoi, P. Kuzhir, A. Reks, G. Bossis and O. Volkova 680
Relaxation Theory for Dynamic Electrorheological EffectG. Q. Gu, K. W. Yu and P. M. Hui 687
Flow Modification Induced by Quincke Rotation in a CapillaryA. Cebers, E. Lemaire and L. Lobry 693
Negative Viscosity Induced in a Ferromagnetic Colloidal SystemSubjected to both External Shear Flow and AC Magnetic Fields
H. Morimoto and T. Maekawa 700
Nonhomogeneous, Nonlinear Deformation of Polymer Gels Swollen withMagneto-Rheological Suspensions
D. Szabo and M. Zrinyi 706
Structure-Enhanced Yield Shear Stress in Electro-Rheological FluidsR. Tao, Y. C. Lan and X. Xu 712
Oscillatory Convection in Viscoelastic, Ferromagnetic/Dielectric LiquidsP. G. Siddheshwar 719
Characteristics of a Yield Stress Scaling Function for ElectrorheologicalFluids
H. J. Choi, J. W. Kim, M. S. Cho, C. A. Kim and S. Jhon 726
Multiscale Analysis of Electrorheological FluidsB. Vernescu 733
Continuum Modelling of Electrorheological FluidsR. Drouot, G. Napoli and G. Racineux 739
Stress Relaxation of Magnetorheological FluidsW. H. Li, G. Chen, S. H. Yeo and H. Du 745
Role and Nature of High Field Conduction of the Suspending Liquid inElectrorheological Fluids
P. Atten, J. N. Foulc and P. Gonon 752
A Two-Fluid Model for Electro- and Magnetorheological SuspensionsK. Von Pfeil, M. D. Graham, D. J. Klingenberg and J. F. Morris 759
XIX
ER-Fluid Rheological Properties in Terms of the Multi-Particle Model ofa Composite
Yu. G. Yanovsky, V. E. Zgaevskii, Z. P. Shulman andE. V. Korobko 766
Stress Behavior and Conductivity of the Electro-Rheological SuspensionsK. Tanaka, K. Ichizawa, Y. Onishi, A. Kubono andR. Akiyama 773
Determination of Rheological and Magnetic Properties forMagnetorheological Composites via Shear Magnetization Measurements
A. T. Horvath, D. J. Klingenberg and Y. M. Shkel 780
Evolution of Chain Structure of Electrorheological Fluid in Flow ModelX. P. Zhao, X. Y. Gao and D. J. Gao 787
Prediction of the Dynamics of Electrorheological FluidsL. B. Pompeo Neto, A. C. F. Arruda and S. L. Vieira 794
Physical Modeling of Damping Characteristics of MR FluidsJ. Sarrazin, J. Claracq and J.-P. Montfort 799
Dynamics of Magnetic Fluid-Permanent Magnet System Subjected toVertical Vibration
S. Sudo, K. Ise and T. Ikohagi 806
Kinetics of Electrorheological Fluid Spreading over a Horizontal SurfaceV. I. Baykov and E. V. Korobko 813
Mass Losses of Magnetized Rheological Mediums Subjected to MagneticField
A. R. Baev and N. P. Matoussevitch 820
Temperature Dependence of MR FluidsW. H. Li, G. Chen, S. H. Yeo and H. Du 827
Simulation of Bidisperse Magnetorheological FluidsD. Kittipoomwong, D. J. Klingenberg and J. C. Ulicny 834
A Single-Chain Model for Quasi-Static Shear Stress-Strain Properties ofMagnetorheological Fluids
Z. Jiang and K. Lu 841
XX
Surface Shear Stress Enhancement under MR Fluid DeformationS. Gorodkin, N. Zhuravski and W. Kordonski 847
Comparative Investigation on ER Fluids with different PolarizationMechanisms
H. Bose and A. Trendler 853
Magnetorheology of a Milimetric Steel Spheres Suspension0. Volkova, G. Bossis, S. Lads and M. Guyot 860
An Experimental Investigation on Mechanical Fatigue Property ofChemical Starch-based ER Fluids
H. G. Lee, S. B. Choi, J. H. Kim and C. C. Cheong 867
Rheological and Magnetorheological Behavior of Some Magnetic Fluids onPolar and Nonpolar Carrier Liquids
O. Balau, D. Bica, M. Koneracka, P. Kopcansky,D. Susan-Resiga and L. Vekas 874
Author Index 881
top related