2023
DOI: 10.1007/s40544-022-0676-8
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Theory analyses and applications of magnetic fluids in sealing

Abstract: Magnetic fluids are the suspensions composed of magnetic nanoparticles, surfactants, and non-magnetic carrier liquids. Magnetic fluids are widely used in various fields, especially in sealing, because of their excellent features, including rapid magnetic response, flexible flow ability, tunable magneto-viscous effect, and reliable self-repairing capability. Here, we provide an in-depth, comprehensive insight into the theoretical analyses and diverse applications of magnetic fluids in sealing from three categor… Show more

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Cited by 20 publications
(8 citation statements)
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“…The samples of magnetic fluid with large particles were used, in which stratification was observed for 6 h. These samples differ from the magnetic fluid used in the industry and are more stable. A collaborative effort between engineers from ‘Ferrolabs Inc.’ (Dulles, VA, USA) and a team led by Bashtovy is dedicated to studying commercial magnetic fluid [ 7 , 196 ]. In [ 7 , 196 ], they examined the processes of magnetophoresis in sealers and shock absorbers.…”
Section: Physical Properties and Structure Of Magnetic Fluidsmentioning
confidence: 99%
See 2 more Smart Citations
“…The samples of magnetic fluid with large particles were used, in which stratification was observed for 6 h. These samples differ from the magnetic fluid used in the industry and are more stable. A collaborative effort between engineers from ‘Ferrolabs Inc.’ (Dulles, VA, USA) and a team led by Bashtovy is dedicated to studying commercial magnetic fluid [ 7 , 196 ]. In [ 7 , 196 ], they examined the processes of magnetophoresis in sealers and shock absorbers.…”
Section: Physical Properties and Structure Of Magnetic Fluidsmentioning
confidence: 99%
“…A collaborative effort between engineers from ‘Ferrolabs Inc.’ (Dulles, VA, USA) and a team led by Bashtovy is dedicated to studying commercial magnetic fluid [ 7 , 196 ]. In [ 7 , 196 ], they examined the processes of magnetophoresis in sealers and shock absorbers.…”
Section: Physical Properties and Structure Of Magnetic Fluidsmentioning
confidence: 99%
See 1 more Smart Citation
“…Magnetic fluids were a kind of intelligent materials that could transform from liquid to solid state under an external magnetic field, and the yield stress/viscosity could increase several times in a few milliseconds. Due to their unique magnetorheological (MR) behavior, magnetic liquids had been widely used in the fields of polishing fluids, brakes, drug-targeted transport, and dampers. The MR effect was greatly influenced by properties of magnetic particles, such as diameter, weight, roughness, etc. , However, these influencing factors were generally studied at the macroscopical level. The microstructures of magnetic fluids had a decisive effect on the macroscopic MR effect, and it was still a great challenge to investigate the mechanisms of microstructures on the MR effect of magnetic fluids.…”
Section: Introductionmentioning
confidence: 99%
“…Hence, the use of additional vibration-damping devices is essential to effectively suppress these microvibrations and minimize their impact. Plenty of studies have proposed various shock absorbers to address vibration problems of spacecraft structures by using smart materials in the recent years. , Magnetic fluid (MF) is a kind of smart material, which consists of ferromagnetic nanoparticles, carrier liquid, and surfactants. The most outstanding feature of MFs is the combination of common liquid behavior and superparamagnetic properties, which not only enables MFs to have a fast magnetic response but can also introduce magnetically controlled, flexible, and reversible flow. , Magnetic fluid shock absorbers (MFSAs) have many advantages, such as controllable damping, compact design, high sensitivity, less energy consumption and long life, and so forth. , Therefore, MFSAs are promising candidates for vibration reduction in aerospace engineering …”
Section: Introductionmentioning
confidence: 99%