Project detail

Výzkum magnetoreologické kapaliny s vysokou sedimentační stabilitou

Duration: 01.01.2017 — 31.12.2019

Funding resources

Czech Science Foundation - Mezinárodní projekty

- whole funder (2017-01-01 - 2019-12-31)

On the project

Cílem projektu je vyvinout a otestovat novou magnetoreologickou kapalinu odolnou vůči sedimentaci. Magnetoreologická kapalina bude složena ze železných mikročástic o dvou různých velikostech povlakovaných polymerem, dále z vhodné nosné kapaliny a aditiv. Rychlost sedimentace bude určena měřením změny magnetické vodivosti testované kapaliny v čase. Magnetoreologické kapaliny vykazující dobré výsledky budou testovaný na slit-flow reometru pro určení dynamického rozsahu a životnosti při vyšších teplotách a mechanickém zatížení. Klíčové výzvy výzkumu budou: zkombinování odděleně potvrzených metod zvyšujících sedimentační stabilitu; zajištění vysokého dynamického rozsahu magnetoreologické kapaliny, tj. nízká viskozita v Off-State a vysoký MR efekt v On-State a na závěr určení provozního rozsahu kapalin.

Description in English
The aim of this proposal is to develop and test a novel magnetorheological fluid resistant to sedimentation. Magnetorheological fluid will consist of two different sized iron micro-particles coated with a polymer, suitable carrier fluid and additives. The sedimentation rate will be determined by measuring the changes in magnetic conductivity. Magnetorheological fluids showing good results will be tested in a slit-flow rheometer determine the dynamic range and durability at a higher temperature and mechanical loading. The key research challenges will be: combining a separately confirmed method enhancing the sedimentation stability and synthetized magnetorheological fluid with much better stability; ensuring a high dynamic range of magnetorheological fluid, i.e. low viscosity in Off-state and high MR effect in On-state and finally assessing the operational range.

Keywords
magnetoreologická kapalina; sedimentace; stabilita; dynamický rozsah; MR efekt

Key words in English
magnetorheological fluid; sedimentation; stability; dynamic range; MR effect;

Mark

GC17-10660J

Default language

Czech

People responsible

Strecker Zbyněk, Ing., Ph.D. - principal person responsible

Units

Institute of Machine and Industrial Design
- (2017-01-01 - 2019-12-31)

Results

KUBÍK, M.; MACHÁČEK, O.; STRECKER, Z.; ROUPEC, J.; MAZŮREK, I. Dynamic viscosity of commercially available magnetorheological fluids. In 23rd International Conference ENGINEERING MECHANICS 2017. 2017. p. 538-541. ISBN: 978-80-214-5497-2.
Detail

ROUPEC, J.; MICHAL, L.; STRECKER, Z.; KUBÍK, M.; MACHÁČEK, O.; CHOI, H. Influence of clay-based additive on sedimentation stability of magnetorheological fluid. SMART MATERIALS & STRUCTURES, 2021, vol. 30, no. 2, p. 1-9. ISSN: 0964-1726.
Detail

MACHÁČEK, O.; KUBÍK, M.; NOVÁK, P. A NEW METHOD OF MAGNETORHEOLOGICAL DAMPER QUALITY EVALUATION. In ENGINEERING MECHANICS 2017. Praha: Institute of Thermomechanics Academy of Sciences of the Czech Republic, 2017. p. 594-597. ISBN: 978-80-214-5497-2.
Detail

STRECKER, Z.; STRMISKA, T.; ROUPEC, J.; KUBÍK, M.; MACHÁČEK, O. DESIGN OF FAST MAGNETORHEOLOGICAL DAMPER USING SOFT MAGNETIC COMPOSITES. In ENGINEERING MECHANICS 2017. DOLEJSKOVA 5, PRAGUE 8, 182 00, CZECH REPUBLIC: ACAD SCI CZECH REPUBLIC, INST THERMOMECHANICS, DOLEJSKOVA 5, PRAGUE 8, 182 00, CZECH REPUBLIC, 2017. p. 934-937. ISBN: 978-80-214-5497-2.
Detail

ROUPEC, J.; MAZŮREK, I.; STRECKER, Z.; KUBÍK, M.; MACHÁČEK, O. TENSILE STRENGTH OF PURE IRON SAMPLES MANUFACTURED BY SELECTIVE LASER MELTING METHOD. In ENGINEERING MECHANICS 2017. Praha: Institute of Thermomechanics Academy of Sciences of the Czech Republic, 2017. p. 830-833. ISBN: 978-80-214-5497-2.
Detail

MACHÁČEK, O.; KUBÍK, M.; STRECKER, Z.; ROUPEC, J.; NOVÁK, P.; MAZŮREK, I. Axial and Pressure Thrust Stiffness of Metal Bellows for Vibration Isolators. In MATEC Web of Conferences. MATEC Web of Conferences. 2018. p. 1-5. ISSN: 2261-236X.
Detail

KUBÍK, M.; MACHÁČEK, O.; ROUPEC, J.; STRECKER, Z.; NOVÁK, P.; MAZŮREK, I. Transient magnetic model of magnetorheological damper and its experimental verification. In ICMME 2017. MATEC Web of Conferences. MATEC web of Conferences, 2018. p. 1-5. ISSN: 2261-236X.
Detail

LAŠTŮVKOVÁ, M.; SMILEK, J.; VLACHOVÁ, K.; OHAREK, L.; MACHÁČEK, O.; ROUPEC, J. Preparation of magnetorheological fluids and effect of additives on their stability. Book of Abstracts of 32nd Conference of The European Colloid and Interface Society - ECIS2018. Narodna in univerzitetna knjižnica, Ljubljana. Ljubljana, Slovenia: Narodna in univerzitetna knjižnica, Ljubljana, 2018. p. 224-224. ISBN: 978-961-6756-90-7.
Detail

SMILEK, J.; LAŠTŮVKOVÁ, M.; VLACHOVÁ, K.; OHAREK, L.; KARGEROVÁ, A.; MACHÁČEK, O.; ROUPEC, J. Sedimentation analysis of magnetorheological fluids stabilized by amphiphilic compounds by analytical centrifuge. Book of Abstracts of 32nd Conference of The European Colloid and Interface Society - ECIS2018. Narodna in univerzitetna knjižnica, Ljubljana. Ljubljana, Slovinsko: ECIS, 2018. ISBN: 978-961-6756-90-7.
Detail

KUBÍK, M.; MACHÁČEK, O.; MAZŮREK, I. Magnetorehological fluid seal with minimum friciton torque. In ENGINEERING MECHANICS 2018. Engineering Mechanics .... Praha: Institute of Theoretical and Applied Mechanics of the Cech Academy of Sciences, 2018. p. 445-448. ISBN: 978-80-86246-88-8. ISSN: 1805-8256.
Detail

STRECKER, Z.; ROUPEC, J.; MAZŮREK, I.; MACHÁČEK, O.; KUBÍK, M. Influence of response time of magnetorheological valve in Skyhook controlled three-parameter damping system. Advances in Mechanical Engineering, 2018, vol. 10, no. 11, p. 1-8. ISSN: 1687-8140.
Detail

VÍTEK, P.; STRECKER, Z.; ROUPEC, J. DESIGN OF FAST MAGNETORHEOLOGICAL DAMPER USING SELECTIVE LASER MELTING TECHNOLOGY. In ENGINEERING MECHANICS 2018. Engineering Mechanics .... Praha: Institute of theoretical and applied mechanics of the Czech academy of Sciences, 2018. p. 905-908. ISBN: 978-80-86246-88-8. ISSN: 1805-8256.
Detail

MACHÁČEK, O.; KUBÍK, M.; ROUPEC, J.; STRECKER, Z.; MAZŮREK, I. MICRO-FLUIDIC SYSTEM WITH GROOVED POLE PIECES OF MAGNETIC CIRCUIT. In ENGINEERING MECHANICS 2018. Engineering Mechanics .... 24th INTERNATIONAL CONFERENCE. Prague: Institute of Theoretical and Applied Mechanics of the Czech Academy of Sciences, 2018. p. 521-524. ISBN: 978-80-86246-88-8. ISSN: 1805-8256.
Detail

KWON, S. H.; JUNG, H. S.; CHOI, H. J.; ROUPEC, J.; STRECKER, Z. Effect of octahedral typed iron oxide particles on magnetorheological behavior of carbonyl iron dispersion. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2018, vol. 555, no. 1, p. 685-690. ISSN: 0927-7757.
Detail

MACHÁČEK, O.; KUBÍK, M.; STRECKER, Z.; ROUPEC, J.; MAZŮREK, I. Design of a frictionless magnetorheological damper with a high dynamic force range. Advances in Mechanical Engineering, 2019, vol. 11, no. 3, p. 1-8. ISSN: 1687-8132.
Detail

STRECKER, Z.; KUBÍK, M.; VÍTEK, P.; ROUPEC, J.; PALOUŠEK, D.; ŠREIBR, V. Structured magnetic circuit for magnetorheological damper made by selective laser melting technology. SMART MATERIALS & STRUCTURES, 2019, vol. 28, no. 55016, p. 1-13. ISSN: 0964-1726.
Detail

JENIŠ, F.; ROUPEC, J.; ŽÁČEK, J.; KUBÍK, M.; MACHÁČEK, O.; SMILEK, J.; SMILKOVÁ, M.; MAZŮREK, I. Abrasion of Magnetorheological Fluids. In Engineering Mechanics 2019, 25th International Conference. Praha: Institute of Thermomechanics of the Czech Academy of Sciences, 2019. p. 169-172. ISBN: 978-80-87012-71-0.
Detail

ROUPEC, J.; STRECKER, Z.; KUBÍK, M.; MACHÁČEK, O.; SMILEK, J.; SMILKOVÁ, M. Stribeck Curves of Selected Magnetorheological Fluids. In Engineering Mechanics 2019, 25th International Conference. Praha: Institute of Thermomechanics of the Czech Academy of Sciences, 2019. p. 323-326. ISBN: 978-80-87012-71-0.
Detail

ROUPEC, J.; JENIŠ, F.; STRECKER, Z.; KUBÍK, M.; MACHÁČEK, O. Stribeck Curve of Magnetorheological Fluid within Pin-on-Disc Configuration: An Experimental Investigation. Materials, 2020, vol. 13, no. 20, p. 1-11. ISSN: 1996-1944.
Detail

ROUPEC, J.; BERKA, P.; MAZŮREK, I.; STRECKER, Z.; KUBÍK, M.; MACHÁČEK, O., ANDANI, M. Taheri. A novel method for measurement of MR fluid sedimentation and its experimental verification. SMART MATERIALS & STRUCTURES, 2017, vol. 26, no. 10, p. 1-13. ISSN: 0964-1726.
Detail