Abstract

The capillary force has been employed to facilitate an effective pathway for the preparation and design of magnetorheological suspensions. The network formation from pendular particle structure-driven assembly can potentially be used to stabilize particle suspension. Furthermore, the magnetic liquid bridge proposed can give rise to a dramatic enhancement in magnetorheological effect (20%–100% increment in storage modulus), suggesting the possibility of tuning field dependent rheological properties of magnetorheological suspensions by addition of minute amounts of ferrofluid.

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