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Preparation of magnetorheological fluids with high sedimentation stability
Oharek, Lukáš ; Kalina, Michal (referee) ; Smilek, Jiří (advisor)
The introduced bachelor thesis focuses on the current issue of stability of magnetorheological fluids in the gravitation field. To prepare stable magnetorheological fluid, influence of additives, particles modification and different carrier fluid are investigated. Regarding the increased viscosity of the carrier fluids, which negatively affect the magnetorheological effect, a magnetorheological fluid containing carbonyl iron particles, which were chemisorbed with non-ionic surfactant Tween 20 was prepared. Mineral oil and water emulsions were used as a carrier fluid, emulsifier Span 80 was used to stabilize the water-in-oil emulsion. Sedimentation stability is improved, at the same time the viscosity of the carrier fluid is increased.
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Preparation and characterization of magnetorheological suspensions with high sedimentation stability
Oharek, Lukáš ; Krouská, Jitka (referee) ; Smilek, Jiří (advisor)
The introduced diploma thesis focuses on the preparation of magnetorheological suspensions with high sedimentation stability. The theoretical part generally describes these suspensions and their properties, it also focuses on the possibilities of improving sedimentation stability, for example by modifying the surface of the particles or adding additives. A research based on the topic of preparation of sedimentation stable magnetorheological suspensions was also carried out. The experimental part focuses on two types of magnetorheological suspensions. The first type of suspension consisted of a water-in-oil emulsion and carbonyl iron particles that were modified by chemisorption of the surfactant Tween 80. Another type of suspension contained thixotropic organoclay along with untreated iron particles. In both types of magnetorheological suspensions, the process of their preparation was optimized, together with the composition of carrier fluids for the preparation of the most sedimentation-stable magnetorheological suspension. The measurement of sedimentation stability by a dispersion analyser confirmed the positive effect of particle modification and the addition of thixotropic agent on the sedimentation stability of suspensions.
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Preparation and characterization of magnetorheological suspensions with high sedimentation stability
Oharek, Lukáš ; Krouská, Jitka (referee) ; Smilek, Jiří (advisor)
The introduced diploma thesis focuses on the preparation of magnetorheological suspensions with high sedimentation stability. The theoretical part generally describes these suspensions and their properties, it also focuses on the possibilities of improving sedimentation stability, for example by modifying the surface of the particles or adding additives. A research based on the topic of preparation of sedimentation stable magnetorheological suspensions was also carried out. The experimental part focuses on two types of magnetorheological suspensions. The first type of suspension consisted of a water-in-oil emulsion and carbonyl iron particles that were modified by chemisorption of the surfactant Tween 80. Another type of suspension contained thixotropic organoclay along with untreated iron particles. In both types of magnetorheological suspensions, the process of their preparation was optimized, together with the composition of carrier fluids for the preparation of the most sedimentation-stable magnetorheological suspension. The measurement of sedimentation stability by a dispersion analyser confirmed the positive effect of particle modification and the addition of thixotropic agent on the sedimentation stability of suspensions.
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Preparation of magnetorheological fluids with high sedimentation stability
Oharek, Lukáš ; Kalina, Michal (referee) ; Smilek, Jiří (advisor)
The introduced bachelor thesis focuses on the current issue of stability of magnetorheological fluids in the gravitation field. To prepare stable magnetorheological fluid, influence of additives, particles modification and different carrier fluid are investigated. Regarding the increased viscosity of the carrier fluids, which negatively affect the magnetorheological effect, a magnetorheological fluid containing carbonyl iron particles, which were chemisorbed with non-ionic surfactant Tween 20 was prepared. Mineral oil and water emulsions were used as a carrier fluid, emulsifier Span 80 was used to stabilize the water-in-oil emulsion. Sedimentation stability is improved, at the same time the viscosity of the carrier fluid is increased.
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