Abstract
Based on magnetodynamics theory, the motion of particles in magnetorheological materials is analysed. The forces applied on the particle include magnetic force, repelling force and viscous resistance. A numerical approach is developed to simulate the microstructures in magnetorheological material after flowing in different directions. It is found that better chain distribution is formed after flowing along external magnetic field. If the flow is perpendicular to the magnetic field, a layered pattern is achieved. The corresponding mechanical properties are also analysed.
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