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Molecular Physics
An International Journal at the Interface Between Chemistry and Physics
Volume 76, 1992 - Issue 3
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Original Articles

Brownian dynamics simulation of dipole suspensions under shear: the phase diagram

J.R. Melrose Department of Chemistry, University of Surrey, Guildford, Surrey, GU2 5XH, UK
Pages 635-660 | Received 01 Oct 1991, Accepted 08 Nov 1991, Published online: 23 Aug 2006

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Hongru Ma, Weijia Wen, Wing Yim Tam & Ping Sheng. (2003) Dielectric electrorheological fluids: Theory and experiment. Advances in Physics 52:4, pages 343-383.
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V. Kumaran. (2022) The effect of inter-particle hydrodynamic and magnetic interactions in a magnetorheological fluid. Journal of Fluid Mechanics 944.
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Kevin J. Frankforter, Daniel C. Ludois & Daniel J. Klingenberg. (2022) Dielectric nanoparticle suspensions for increased electrostatic forces. Journal of Applied Physics 131:4.
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Hamed Abdi, Rasam Soheilian, Randall M. Erb & Craig E. Maloney. (2018) Paramagnetic colloids: Chaotic routes to clusters and molecules. Physical Review E 97:3.
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Daniel Vågberg & Brian P. Tighe. (2017) On the apparent yield stress in non-Brownian magnetorheological fluids. Soft Matter 13:39, pages 7207-7221.
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Dmitry Zablotsky, Elmars Blums & Hans J. Herrmann. (2017) Self-assembly and rheology of dipolar colloids in simple shear studied using multi-particle collision dynamics. Soft Matter 13:37, pages 6474-6489.
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Akira Satoh. 2015. Encyclopedia of Surface and Colloid Science, Third Edition. Encyclopedia of Surface and Colloid Science, Third Edition 2674 2687 .
J. Richardi & J.-J. Weis. (2011) Low density mesostructures of confined dipolar particles in an external field. The Journal of Chemical Physics 135:12.
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F. Yang, X. L. Gong, S. H. Xuan, W. Q. Jiang, C. X. Jiang & Z. Zhang. (2011) Simulation study on the trembling shear behavior of eletrorheological fluid. Physical Review E 84:1.
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Ronald H.W. Hoppe & William G. Litvinov. 2011. Numerical Methods for Non-Newtonian Fluids. Numerical Methods for Non-Newtonian Fluids 719 793 .
S A Wilson, Z Libor, A A Skordos & Q Zhang. (2009) Enhanced dc conductivity of low volume-fraction nano-particulate suspensions in silicone and perfluorinated oils. Journal of Physics D: Applied Physics 42:6, pages 062003.
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Tomonori Watanabe, Masayuki Aoshima & Akira Satoh. (2006) Rheological properties and particle behaviors of a nondilute colloidal dispersion composed of ferromagnetic spherocylinder particles subjected to a simple shear flow: Analysis by means of mean-field approximation for the two typical external magnetic field directions. Journal of Colloid and Interface Science 302:1, pages 347-355.
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L.Yu. Iskakova, A.P. Romanchuk & A.Yu. Zubarev. (2006) Phase and structural transformations in magnetorheological suspensions. Physica A: Statistical Mechanics and its Applications 366, pages 18-30.
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L. Yu. Iskakova, A. Yu. Zubarev & A. P. Romanchuk. (2005) On the Theory of Phase Transitions in Magnetorheological Suspensions. Colloid Journal 67:5, pages 564-572.
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J.-J. Weis & D. Levesque. 2005. Advanced Computer Simulation Approaches for Soft Matter Sciences II. Advanced Computer Simulation Approaches for Soft Matter Sciences II 163 225 .
Ujitha M. Dassanayake, Stella S. R. Offner & Yue Hu. (2004) Critical role of flow-modified permittivity in electrorheology: Model and computer simulation. Physical Review E 69:2.
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Martin Kr ger, Patrick Ilg & Siegfried Hess. (2003) Magnetoviscous model fluids. Journal of Physics: Condensed Matter 15:15, pages S1403-S1423.
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Masayuki Aoshima, Akira Satoh, Roy W. Chantrell & Geoff N. Coverdale. (2002) Rheological Properties and Orientational Distributions of Dilute Ferromagnetic Spherocylinder Particle Dispersions. Journal of Colloid and Interface Science 253:2, pages 455-464.
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YUE HU, EE-YENN E. LIN & UJITHA M. DASSANAYAKE. (2012) THE SIGNIFICANCE OF FLOW-MODIFIED PERMITTIVITY: A NEW MODEL AND COMPUTER SIMULATION OF ELECTRORHEOLOGY. International Journal of Modern Physics B 16:17n18, pages 2562-2568.
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S. HENLEY & F. E. FILISKO. (2012) LAMELLAR STRUCTURES INDUCED BY COUPLED ELECTROMAGNETIC AND SHEAR FIELDS: A DEFINING CHARACTER OF ER/MR ACITIVITY. International Journal of Modern Physics B 16:17n18, pages 2286-2292.
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G. Bossis, O. Volkova, S. Lacis & A. Meunier. 2002. Ferrofluids. Ferrofluids 202 230 .
Akira Satoh. (2001) Comparison of Approximations between Additivity of Velocities and Additivity of Forces for Stokesian Dynamics Methods. Journal of Colloid and Interface Science 243:2, pages 342-350.
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ARI LUKKARINEN & KIMMO KASKI. (2012) MINIMUM ENERGY CONFIGURATIONS OF ER-FLUIDS. International Journal of Modern Physics B 15:06n07, pages 904-911.
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S. L. VIEIRA, M. NAKANO, S. HENLEY, F. E. FILISKO, L. B. POMPEO NETO & A. C. F. ARRUDA. (2012) TRANSIENT BEHAVIOR OF THE MICROSTRUCTURE OF ELECTRORHEOLOGICAL FLUIDS IN SHEAR FLOW MODE. International Journal of Modern Physics B 15:06n07, pages 695-703.
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JAMES E. MARTIN. (2012) FIELD-INDUCED RHEOLOGY IN UNIAXIAL AND BIAXIAL FIELDS. International Journal of Modern Physics B 15:06n07, pages 574-595.
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Akira Satoh. (2001) Rheological Properties and Orientational Distributions of Dilute Ferromagnetic Spherocylinder Particle Dispersions. Journal of Colloid and Interface Science 234:2, pages 425-433.
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Masayuki Aoshima, Akira Satoh, Geoff N. Coverdale & Roy W. Chantrell. (2001) Orientational Distributions of a Ferromagnetic Spherocylinder Particle in a Simple Shear Flow. Analysis for a Magnetic Field Parallel to a Shear Flow Direction.単純せん断流中における強磁性棒状粒子の配向分布に関する研究  せん断流と磁場が同方向の場合の理論解析. KAGAKU KOGAKU RONBUNSHU 27:6, pages 799-805.
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James E. Martin. (2000) Thermal chain model of electrorheology and magnetorheology. Physical Review E 63:1.
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Andrej Yu. Zubarev & Larisa Yu. Iskakova. (2000) Effect of chainlike aggregates on dynamical properties of magnetic liquids. Physical Review E 61:5, pages 5415-5421.
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U. Dassanayake, S. Fraden & A. van Blaaderen. (2000) Structure of electrorheological fluids. The Journal of Chemical Physics 112:8, pages 3851-3858.
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M. Mohebi, N. Jamasbi, G. A. Flores & Jing Liu. (2012) Numerical Study of the Role of Magnetic Field Ramping Rate on the Structure Formation in Magnetorheological Fluids. International Journal of Modern Physics B 13:14n16, pages 2060-2067.
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Cheol Park & Richard E. Robertson. (1998) Alignment of particles by an electric field. Materials Science and Engineering: A 257:2, pages 295-311.
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Akira Satoh, Roy W. Chantrell, Geoff N. Coverdale & Shin-ichi Kamiyama. (1998) Stokesian Dynamics Simulations of Ferromagnetic Colloidal Dispersions in a Simple Shear Flow. Journal of Colloid and Interface Science 203:2, pages 233-248.
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A. Lukkarinen & K. Kaski. (2011) Ground State Symmetry of an Electrorheological Fluid Containing Two Types of Particles. International Journal of Modern Physics C 09:04, pages 591-606.
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A. Lukkarinen & K. Kaski. (1998) Simulation studies of electrorheological fluids under shear, compression, and elongation loading. Journal of Applied Physics 83:3, pages 1717-1725.
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Yasufumi Otsubo & Kazuya Edamura. (1997) Electrorheology of dilute suspensions induced by hydrodynamic instability. Journal of Non-Newtonian Fluid Mechanics 71:3, pages 183-195.
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M. Mohebi, N. Jamasbi & Jing Liu. (1996) Simulation of the formation of nonequilibrium structures in magnetorheological fluids subject to an external magnetic field. Physical Review E 54:5, pages 5407-5413.
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Li Jian & Shui Jiapeng. (1996) Simulation of a three-dimensional electrorheological suspension. Journal of Applied Physics 79:9, pages 7312-7317.
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H. X. Guo, Z. H. Mai & H. H. Tian. (1996) Computer simulation of structures and rheological properties of electrorheological fluids. Physical Review E 53:4, pages 3823-3831.
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J. M. Sun & R. Tao. (1996) Shear flow of one-component polarizable fluid in a strong electric field. Physical Review E 53:4, pages 3732-3737.
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Hiroshi Komatsugawa & Shuichi Nosé. (1996) Nonequilibrium structural changes of a viscoelastic liquid under oscillatory shear: A molecular dynamics study. Physical Review E 53:3, pages 2588-2594.
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Hiroshi Komatsugawa & Shuichi Nosé. (1995) Nonequilibrium molecular dynamics simulations of oscillatory sliding motion in a colloidal suspension system. Physical Review E 51:6, pages 5944-5953.
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M. Parthasarathy & D. J. Klingenberg. (1995) A microstructural investigation of the nonlinear response of electrorheological suspensions. Rheologica Acta 34:5, pages 417-429.
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G Bossis, Y Grasselli, E Lemaire, J Persello & L Petit. (1994) Phase Separation and Flow-Induced Anisotropy in Electrorheological Fluids. Europhysics Letters (EPL) 25:5, pages 335-340.
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K. C. Hass. (1993) Computer simulations of nonequilibrium structure formation in electrorheological fluids. Physical Review E 47:5, pages 3362-3373.
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J. R. Melrose & D. M. Heyes. (1993) Simulations of electrorheological and particle mixture suspensions: Agglomerate and layer structures. The Journal of Chemical Physics 98:7, pages 5873-5886.
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