Forced oscillation of ferrofluid marbles under an alternating magnetic field

磁流体 物理 振荡(细胞信号) 电磁铁 磁场 机械 激发 凝聚态物理 磁阻 磁压力 交流电 电流 电流(流体) 磁化 核磁共振 旋转磁场 平面(几何) 跳跃 占空比 涡流 领域(数学) 磁粉探伤 磁铁 磁悬浮
作者
Parnian Azizian,Mahbod Mohammadrashidi,Mohamad Ali Bijarchi,Atena Faghihian Alirezaei
出处
期刊:Physics of Fluids [American Institute of Physics]
卷期号:37 (8) 被引量:1
标识
DOI:10.1063/5.0255975
摘要

The study of oscillating liquid marbles, droplets with an outer layer made of hydrophobic nanoparticles, has gained significant attention from researchers due to their applications in digital microfluidic systems and their rich underlying physics. This study investigates the forced oscillation of ferrofluid marbles (FMs) and different oscillation regimes by applying an alternating magnetic force to these marbles. Initially, the influence of frequency and duty cycle of the magnetic field, volume of FM, and electromagnet current on the deformation of marble is studied. It is also observed that in conditions with significant marble deformation, the marble jumps off the surface. The minimum electric current required for marble to jump off the surface is also investigated under different circumstances. Regarding the shape of these oscillating marbles, three regimes, namely roundish, peanut, and trilobe are observed, and the conditions under which each of these regimes occurs are studied. In weak magnetic fields, liquid marble oscillation patterns initially exhibit a roundish regime. Upon reaching a critical magnetic field, influenced by factors such as marble volume, excitation frequency, and magnetic field duty cycle, a transition occurs, shifting the oscillation patterns to peanut or trilobe regimes. Additionally, it is observed for the first time that under specific conditions of alternating magnetic field, the liquid marbles oscillate on a horizontal plane when a vertical magnetic field is applied. These horizontal oscillations occur only within a limited range of the electromagnet current or excitation frequency.

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