Magnetic levitation force of composite magnets in a ferrofluid damper

Abstract: Larger radical levitation force is favorable for enhancing energy dissipation in ferrofluid dampers. Utilization of composite magnet structures is one of the candidate methods to increase this force. The numerical, analytical and experimental methods of obtaining the levitation force exerted on composite magnet structures in ferrofluid dampers are summarized. The levitation forces of six composite structures are examined using these methods. It is shown that this force can be effectively increased by using com… Show more

“…Since the levitation phenomenon was first demonstrated, many studies have been conducted on the levitation force exerted on a complete cylindrical permanent magnet immersed in a ferrofluid. Yang and Liu [111] studied the levitation force of such a composite magnet because it has rarely been noted in previous studies. They used analytical and numerical methods to calculate the levitation forces of different composite magnet structures, as shown in Fig.…”

Typical dampers and energy harvesters based on characteristics of ferrofluids

“…Since the levitation phenomenon was first demonstrated, many studies have been conducted on the levitation force exerted on a complete cylindrical permanent magnet immersed in a ferrofluid. Yang and Liu [111] studied the levitation force of such a composite magnet because it has rarely been noted in previous studies. They used analytical and numerical methods to calculate the levitation forces of different composite magnet structures, as shown in Fig.…”

Typical dampers and energy harvesters based on characteristics of ferrofluids

A finite volume method for ferrohydrodynamic problems coupled with microscopic magnetization dynamics

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