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The main aim of the presented research was to investigate theoperational characteristics of a bearing when alternative lubricants were used for comparison with a standard lubricant, including that containing magnetic nanoparticles. The bearing was subjected to varying operating conditions, differing in terms of mechanical load status. The monitoring of the bearing operation parameters primarily focused on monitoring the velocity and acceleration of vibrations, as well as the operating temperature of the bearing. Thebearingwith lubricant doped by magnetic nanoparticles exhibited reduced vibration velocity and acceleration values both under no load conditions and when subjected to a mechanicalload. The operating temperature slightly increased during testing in the case ofthe bearing with nanoparticles compared to the bearing using the original lubricant.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
168--174
Opis fizyczny
Bibliogr. 21 poz., tab., zdj.
Twórcy
autor
- TechnicalUniversity ofKosice, Faculty of Manufacturing Technologies, Sturova 31,08001 Presov, Slovak Republic
autor
- TechnicalUniversity ofKosice, Faculty of Manufacturing Technologies, Sturova 31,08001 Presov, Slovak Republic
autor
- TechnicalUniversity ofKosice, Faculty of Manufacturing Technologies, Sturova 31,08001 Presov, Slovak Republic
autor
- TechnicalUniversity ofKosice, Faculty of Manufacturing Technologies, Sturova 31,08001 Presov, Slovak Republic
Bibliografia
- [1] Wang P., Hang J.,Wei S.: Analysis of Torque in Magnetorheological Rotary Brake.Advanced Materials Research, vols. 239-242,pp.2297-2301, 2011
- [2] Wang X.,Lu W., Li H.,Meng G.: A magnetorheologicalfluidlubricated floating ring bearing and its application to rotorvibration control. J. Vib. Shock, vol. 36, pp. 18–24, 2017
- [3] Rosensweig R.E.: Ferrohydrodynamics. Courier Dover Publications, 1997
- [4] Nikitin Y.: Diagnostics of BLDC motor windingbased on a model approach in the state space. IOP Conference Series: Materials Science and Engineering, 2020, 971(4), 042101. Modelling of technical systems. CAD / CAM/ CAE –technologies. doi:10.1088/1757-899X/971/4/042101. ISSN 1757-899X
- [5] Zapomel J.,Ferfecki P.: Anew concept of a hydrodynamic bearing lubricated by composite magnetic fluid for controlling the bearing load capacity. Mech. Syst. Signal Pract.,vol. 168, 108678, 2022
- [6] Potoczny M.,Zachara B.: Influence of magnetorheological fluid volume onto obtainedcritical pressures on rotary shaft seals.Key Engineering Materials,vol. 490,pp.119-127, 2012
- [7] Xie X., Dai Q., Huang W.,Wang X.: Supporting capacity of a ferrofluid ring bearing. J. Phys. D Appl. Phys., vol. 54, 175004, 2021
- [8] Petrigac M.: Diagnostics of the operation of the technical system when applying lubricant with magnetic nanoparticles. Diploma Thesis. Prešov, FMT TUKE, 2018, 67 p.
- [9] Vekas L., Bica D., Avdeev M.V.: Magnetic nanoparticles and concentrated magnetic nanofluids: Synthesis, properties and some applications. China Particuology, vol. 5, no. 1–2, pp. 43–49,2007
- [10] Charles S.W.: The Preparation of Magnetic Fluids, in Ferrofluids,S. Odenbach(Ed.). Berlin: Springer Berlin Heidelberg, 2003, pp. 3–18
- [11] Vekas L., Avdeev M.V.,Bica D.: Magnetic Nanofluids: Synthesis and Structure, inNanoScience in Biomedicine, D. Shi (Ed.). Berlin: Springer Berlin Heidelberg, 2009, pp. 650–728
- [12] Patel J.R., Deheri G.: Viscosity variation effect onthe magnetic fluid lubrication of a short bearing. J.Serb.Soc. Comput. Mech., vol. 13, pp. 56–66, 2019
- [13] Bee A., Massart R., Neveu S.: Synthesis of very fine maghemite particles". Journal of Magnetism and Magnetic Materials, pp. 6–9, Aug. 1995
- [14] Khalil A., Nabhani M., Khlifi M.E.: Rotational viscosity effect on the stability of finite journal bearings lubricated by ferrofluids". J. Braz. Soc. Mech. Sci., vol. 43,548, 2021
- [15] Bialy W.,Ruzbarsky J.: Breakdown cause and effect analysis. Case study. Management systems in production engineering,vol. 26, pp. 83-87, 2018
- [16]Salwinski J.,Horak W.: Measurement of normal force in magnetorheological and ferrofluid. Key Engineering Materials, vol. 490, pp. 25-32,2012
- [17] SKF Group: Deep groove ballbearings. http://www.skf.com/group/products/bearings-units-housings/ball-bearings/deep-groove-ball-bearings/deep-groove-ball-bearings/index.html?designation=6205%20ETN9x
- [18] Krenicky T.: Implementation of Virtual Instrumentation for Machinery Monitoring. In: ScientificPapers: Operation and Diagnostics of Machines and Production Systems Operational States: Vol. 4, RAM-Verlag, Lüdenscheid, 2011, pp. 5-8. ISBN 978-3-942303-10-1
- [19] Krenicky T.: The Monitoring of Technical Systems Operation Using VirtualInstrumentation. Strojarstvo extra, 2010, No. 5, pp. 25/1-25/2. ISSN 1335-2938. (In Slovak)
- [20] Turygin Y., Bozek P., Abramov I., Nikitin Y.: Reliability Determination and Diagnostics of a Mechatronic System. Advances in Science and Technology. Vol. 12, No. 2, June 2018, pp. 274–290. DOI: 10.12913/22998624/92298. ISSN 2299-8624
- [21 ]Peterka J., Bozek P.,Nikitin Y.: Diagnostics of automated technological devices. MM Science Journal, October 2020, pp. 4027-4034. DOI: 10.17973/MMSJ.2020_10_2020051. ISSN1803-1269, 1805-0476
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu „Społeczna odpowiedzialność nauki” - moduł: Popularyzacja nauki i promocja sportu (2022-2023)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-86a20069-b2f1-44d3-bae8-03c3601c608a