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A novel coarse-grained modeling and simulation for microstructure and shear evolution of induced dipole dominant electrorheological fluid

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Date of Publication:2024-11-08

Journal:Journal of Molecular Liquids

Volume:414

ISSN No.:0167-7322

Key Words:Boltzmann inversion; Coarse-grained; Coarse-grained modeling; Coarse-grained molecular dynamic; Electrorheological; Electrorheological fluids; Induced dipole dominant electrorheological fluid; Induced dipoles; Iterative boltzmann inversion; Microstructure evolutions; Oxygen vacancies; Shear evolution; Shear flow; Shear strain; Shear stress

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A novel coarse-grained modeling and simulation for microstructure and shear evolution of induced dipole dominant electrorheological fluid