Electrorheology : mechanisms and models
暂无分享,去创建一个
[1] X. Tang,et al. On the conductivity model for the electrorheological effect , 1995 .
[2] Georges Bossis,et al. Influence of the particle size on the rheology of magnetorheological fluids , 1995 .
[3] A. D. Shine,et al. Two‐dimensional modeling of the electrorheological behavior of liquid crystalline polymer solutions , 1995 .
[4] James E. Martin,et al. A light-scattering study of the nonlinear dynamics of electrorheological fluids in oscillatory shear , 1995 .
[5] Daniel J. Klingenberg,et al. A microstructural investigation of the nonlinear response of electrorheological suspensions , 1995 .
[6] A. Acrivos,et al. Effects of conductivity in electric-field-induced aggregation in electrorheological fluids. , 1995, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[7] R. E. Rosensweig,et al. On magnetorheology and electrorheology as states of unsymmetric stress , 1995 .
[8] Steven L. Ceccio,et al. The effect of electrical transients on the shear stresses in electrorheological fluids , 1995 .
[9] M. Parthasarathy,et al. A microstructural investigation of the nonlinear response of electrorheological suspensions , 1995 .
[10] J. M. Ginder,et al. Shear stresses in magnetorheological fluids: Role of magnetic saturation , 1994 .
[11] M. Ota,et al. Optimum particle size distribution of an electrorheological fluid , 1994 .
[12] Thomas C. Halsey,et al. Electrorheology of a model colloidal fluid , 1994 .
[13] Halsey,et al. Structure of an electrorheological fluid in steady shear. , 1994, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[14] R. Anderson. Electrostatic Forces in an Ideal Spherical-Particle Electrorheological Fluid , 1994 .
[15] Tao,et al. Simulation of structure formation in an electrorheological fluid. , 1994, Physical review letters.
[16] P. Atten,et al. Macroscopic model of interaction between particles in an electrorheological fluid , 1994 .
[17] Whittle,et al. Dependence of electrorheological response on conductivity and polarization time. , 1994, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[18] Steven L. Ceccio,et al. Influence of orientation of electric field on shear flow of electrorheological fluids , 1994 .
[19] Daniel J. Klingenberg,et al. Relaxation of polydisperse electrorheological suspensions , 1994 .
[20] Kumbakonam R. Rajagopal,et al. Modeling electro-rheological materials through mixture theory , 1994 .
[21] Motonori Ota,et al. MECHANISM OF STRESS TRANSMISSION FROM AN ELECTRORHEOLOGICAL FLUID TO THE ELECTRIC PLATES , 1994 .
[22] L. Petit,et al. Phase separation and flow-induced anisotropy in electrorheological fluids , 1994 .
[23] R. Tao,et al. Electrorheological fluids : mechanisms, properties, technology, and applications , 1994 .
[24] Gulley,et al. Static shear stress of electrorheological fluids. , 1993, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[25] G. Bossis,et al. Many-body electrostatic interactions in electrorheological fluids. , 1993, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[26] Widom,et al. van der Waals forces in electrorheological fluids. , 1993, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[27] M. Doi,et al. Model of porous particles containing water in electro-rheological fluids , 1993 .
[28] Charles F. Zukoski,et al. Material Properties and the Electrorheological Response , 1993 .
[29] T. Miyamoto,et al. Many‐body effect in the static yield stress of electrorheological fluid , 1993 .
[30] M. Doi,et al. The role of water capillary forces in electro-rheological fluids , 1993 .
[31] D. Klingenberg,et al. Kinetics of structure formation in electrorheological suspensions , 1993 .
[32] Hass. Computer simulations of nonequilibrium structure formation in electrorheological fluids. , 1993, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[33] David M. Heyes,et al. Simulations of electrorheological and particle mixture suspensions: Agglomerate and layer structures , 1993 .
[34] W. Toor. Structure Formation in Electrorheological Fluids , 1993 .
[35] Daniel J. Klingenberg,et al. Simulation of the dynamic oscillatory response of electrorheological suspensions: Demonstration of a relaxation mechanism , 1993 .
[36] K. Hass,et al. Liquid-state properties of electrorheological fluids , 1993 .
[37] L. C. Davis. The metal-particle/insulating oil system : an ideal electrorheological fluid , 1993 .
[38] G. Fuller,et al. Electric field induced structure in dense suspensions , 1993 .
[39] Tao. Electric-field-induced phase transition in electrorheological fluids. , 1993, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[40] M. Doi,et al. Electro-Rheological Effects in a Flow through a Narrow Slit , 1992 .
[41] Halsey,et al. Evolution of structure in a quiescent electrorheological fluid. , 1992, Physical review letters.
[42] Yu.,et al. Energy of an electrorheological solid calculated with inclusion of higher multipoles. , 1992, Physical review. B, Condensed matter.
[43] L. C. Davis. Polarization forces and conductivity effects in electrorheological fluids , 1992 .
[44] A. D. Shine,et al. Electrorheology of a nematic poly(n‐hexyl isocyanate) solution , 1992 .
[45] Masao Doi,et al. Shear resistance of electrorheological fluids under time‐varying electric fields , 1992 .
[46] J. Melrose. Brownian dynamics simulation of dipole suspensions under shear: the phase diagram , 1992 .
[47] Halsey,et al. Surface and bulk energies of dipolar lattices. , 1992, Physical review. A, Atomic, molecular, and optical physics.
[48] Tao,et al. Laser diffraction determination of the crystalline structure of an electrorheological fluid. , 1992, Physical review letters.
[49] M. Shaw,et al. Viscoelastic response of electrorheological fluids. II. Field strength and strain dependence , 1992 .
[50] Yasufumi Otsubo,et al. Electrorheological properties of silica suspensions , 1992 .
[51] Martin,et al. Rheology of electrorheological fluids. , 1992, Physical review letters.
[52] Kumbakonam R. Rajagopal,et al. Flow of electro-rheological materials , 1992 .
[53] J. Brady,et al. Dynamic simulation of an electrorheological fluid , 1992 .
[54] L. C. Davis. Finite‐element analysis of particle‐particle forces in electrorheological fluids , 1992 .
[55] Roger T. Bonnecaze,et al. Yield stresses in electrorheological fluids , 1992 .
[56] P. J. Achorn,et al. A study of the dynamic behavior of an electrorheological fluid , 1991 .
[57] E. Korobko,et al. Electrorheological polymer‐based suspensions , 1991 .
[58] N. K. Jaggi. Structure and dynamics of a dense dipolar system in an electric field and their relevance to electrorheological fluids , 1991 .
[59] James E. Stangroom,et al. Basic considerations in flowing electrorheological fluids , 1991 .
[60] A. Sprecher,et al. Characteristics and mechanisms of electrorheological fluids , 1991 .
[61] M. Doi,et al. Aggregation Kinetics in Electro-Rheological Fluids , 1991 .
[62] Tao,et al. Three-dimensional structure of induced electrorheological solid. , 1991, Physical review letters.
[63] D. Klingenberg,et al. The small shear rate response of electrorheological suspensions. II. Extension beyond the point–dipole limit , 1991 .
[64] D. Klingenberg,et al. The small shear rate response of electrorheological suspensions. I. Simulation in the point–dipole limit , 1991 .
[65] Tom C. B. McLeish,et al. Viscoelastic response of electrorheological fluids. I. Frequency dependence , 1991 .
[66] Sangtae Kim,et al. Microhydrodynamics: Principles and Selected Applications , 1991 .
[67] D. Klingenberg,et al. Stress-transfer mechanisms in electrorheological suspensions , 1991 .
[68] Thomas C. Halsey,et al. Fluctuation-induced couplings between defect lines or particle chains , 1990 .
[69] Halsey,et al. Structure of electrorheological fluids. , 1990, Physical review letters.
[70] Frank E. Filisko,et al. An intrinsic mechanism for the activity of alumino‐silicate based electrorheological materials , 1990 .
[71] C. Zukoski,et al. The electrorheological properties of polyaniline suspensions , 1990 .
[72] G. Bossis,et al. Magnetoviscosity of Micronic Suspensions , 1990 .
[73] Daniel J. Klingenberg,et al. Dynamic simulation of electrorheological suspensions , 1989 .
[74] A. Gast,et al. Predictions of birefringence and dichroism of hard sphere suspensions in combined electric and shear fields , 1989 .
[75] Rongjia Tao,et al. Electric field induced solidification , 1989 .
[76] C. Zukoski,et al. Electrorheological fluids as colloidal suspensions , 1989 .
[77] A. Gast,et al. A microscopic model of electrorheology , 1988 .
[78] N. Wagner,et al. The dichroism and birefringence of a hard‐sphere suspension under shear , 1988 .
[79] J. D. Carlson,et al. Electrorheology at small strains and strain rates of suspensions of silica particles in silicone oil , 1987 .
[80] M. Doi,et al. Flow birefringence and dichroism of polymers. I. General theory and application to the dilute case , 1986 .
[81] Howard A. Barnes,et al. The yield stress myth? , 1985 .
[82] G. V. Vinogradov,et al. Electric fields in the rheology of disperse systems , 1984 .
[83] John F. Brady,et al. Dynamic simulation of sheared suspensions. I. General method , 1984 .
[84] J. Hayter,et al. Structure Factor of a Magnetically Saturated Ferrofluid , 1982 .
[85] K. Skarp,et al. The Stabilizing Effect of an Electric Field on the Shear Flow of Nematic Liquid Crystals When α3>0: Flow Alignment Regained , 1981 .
[86] S. Lagerwall,et al. Flow Properties of Nematic 8CB: An Example of Diverging and Vanishing α3 , 1981 .
[87] D. Ermak,et al. Brownian dynamics with hydrodynamic interactions , 1978 .
[88] G. Batchelor. The effect of Brownian motion on the bulk stress in a suspension of spherical particles , 1977, Journal of Fluid Mechanics.
[89] Hideyuki Uejima. Dielectric Mechanism and Rheological Properties of Electro-Fluids , 1972 .
[90] G. Batchelor,et al. The stress system in a suspension of force-free particles , 1970, Journal of Fluid Mechanics.
[91] Thomas W. Martinek,et al. Electroviscous Fluids. I. Rheological Properties , 1967 .
[92] Thomas W. Martinek,et al. Electroviscous Fluids. II. Electrical Properties , 1967 .
[93] G. Mason,et al. Liquid bridges between spheres , 1965 .
[94] J. Happel,et al. Low Reynolds number hydrodynamics , 1965 .
[95] J. Ferry. Viscoelastic properties of polymers , 1961 .
[96] Von Hippel,et al. Dielectric materials and applications : papers by twenty-two contributors , 1954 .
[97] W. M. Winslow. Induced Fibration of Suspensions , 1949 .