Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Propozycja nowej grupy tłumików magnetoreologicznych
Języki publikacji
Abstrakty
The article presents a construction and testing of a new family of magnetorheological dampers. The work began with testing currently used solutions, which exist inter alia in vibratory machines for example in washing machines. Basis on this job required damping parameters were obtained and then these parameters were used as input data in new devices designing process. A distinguishing feature of newly designed dampers is considerably reduction of volume of smart liquid in comparison to existing solutions described in the literature.
W artykule przedstawiono budowę i badania nowej rodziny tłumików magnetoreologicznych. Prace rozpoczęto od przeprowadzenia badań obecnie wykorzystywanych konstrukcji tłumików wiskotycznych, które stosowane są między innymi w maszynach wibracyjnych na przykład w pralkach automatycznych. W wyniku przeprowadzonych badań ustalono wymagane parametry tłumienia i użyto ich, jako danych wejściowych w procesie projektowania nowego urządzenia. Charakterystyczną cechą nowo zaprojektowanych tłumików jest znacznie zmniejszenie objętości stosowanych cieczy inteligentnych w stosunku do istniejących rozwiązań, opisanych w literaturze.
Wydawca
Czasopismo
Rocznik
Tom
Strony
263--267
Opis fizyczny
Bibliogr. 29 poz., rys., tab., wykr.
Twórcy
autor
- Poznan University of Technology, Institute of Mechanical Technology, ul. Piotrowo 3, 60-695 Poznan
autor
- Poznan University of Technology, Institute of Mechanical Technology, ul. Piotrowo 3, 60-695 Poznan
Bibliografia
- [1] Spaggiari A., Properties and applications of Magnetorheological fluids, Fracture and Structural Integrity, 23 (2012), 57-61
- [2] Kciuk M., Turczyn R., Properties and application of magnetorheological fluids, Journal of Achievements in Materials and Manufacturing Technology, 18 (2006), nr 1-2, 127-130
- [3] Baranwal D., Deshmukh T. S., MR-Fluid Technology and Its Application – A Review, International Journal of Emerging Technology and Advanced Engineering, 2 (2012), nr 12, 563- 569
- [4] Spelta C., Previdi F., Savaresi M.S., Fraternale G., Gaudiano N., Control of magnetorheological dampers for vibration reduction in a wasching machine, Mechatronics, 19 (2009), 410-421
- [5] Parlak Z., Engin T., Calli I., Optimal design of MR damper via finite element analyses of fluid dynamic and magnetic field, Mechatronics, 22 (2012), 890-903
- [6] Li F., Xianzhuo L., The Modelling Research of Magnetorheological Damper in Advanced Intelligent Prosthesis, Control and Decision Conference, 2009. CCDC '09. Chinese, 781-784
- [7] Sapiński B., Filuś J., Analysis of parametric models of MR linear damper, Journal of Theoretical and Applied Mechanics, 41 (2003), 215-238
- [8] Maślanka M., Sapiński B., Snamina J., Experimental study of vibration control of a cable with an attached MR damper, Journal of Theoretical and Applied Mechanics, 45 (2007), 893- 917
- [9] Sapiński B., Rosół M., MR damper performance for shock isolation, Journal of Theoretical and Applied Mechanics, 45 (2007), 133-145
- [10] Sapiński B., Magnetorheological dampers in vibration control of mechanical structures, Mechanics, 28 (2009), 18-25
- [11] Sapiński B., Vibration power generator for a linear MR damper, Smart Materials and Structures 19 (2010), 105012
- [12] Milecki A., Hauke M., Application of magnetorheological fluid in industrial shock absorbers, Mechanical Systems and Signal Processing, 28 (2012), 528-540
- [13] Milecki A., Sędziak D., The use of magnetorheological dampers to reduce servo drive velocity jumps due to load changes, Journal of Intelligent Material Systems and Structures, 16 (2005), 501-510
- [14] Bajkowski J. M., Design analysis and performance evaluation of the linear magnetorheological damper, Acta Mechanica et Automatica, 6 (2012), 5-9
- [15] Bajkowski J., Bajkowski M., Grześkiewicz W., Sofonea M., Shillor M., Zalewski R., Analysis of the dependence between a temperature and working parameters of the MR damper, Mechanics, 26 (2007), 149-155
- [16] Milecki A., Investigation and control of magneto-rheological fluid dampers, International Journal of Machine Tools & Manufacture 41 (2001), 379-391
- [17] Xiaocong Zhu, Xingjian Jing, Li Cheng, Magnetorheological fluid dampers: A review on structure design and analysis, Journal of Intelligent Material Systems and Structures, 23 (2012), 839-873
- [18] Carlson J.D., Jolly M.R., MR fluid, foam and elastomer devices, Mechatronics, 10 (2000), 555-569
- [19] Carlson J.D., Low-Cost MR Fluid Sponge Devices, Journal of Intelligent Material Systems and Structures, 10 (1999), 589- 594,
- [20] Nguyen QH, Choi SB, Woo JK, Optimal design of magnetorheological fluid-based dampers for front-loaded washing machines, Journal of Mechanical Engineering Science, 228 (2014), 294-306
- [21] Wang J., Meng G., Magnetorheological fluid devices: principles, characteristics and applications in mechanical engineering, Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications, 215 (2001), nr 3, 165-174
- [22] Dyke S. J., Spencer F. B. Jr, Sain M. K., Carlson J. D., Modelling and control of magnetorheological dampers for seismic response reduction, Smart Materials and Structures, 5 (1996), 565-575
- [23] Liu D.Y., Lee J., Choi B.S., Choi H.J., Silica-coated carbonyl iron microsphere based magnetorheological fluid and its damping force characteristics, Smart Materials and Structures, 22 (2013), 1-7
- [24] Sapiński B., Snamina J., Maślanka M., Rosół M., Facility for testing of magnetorheological damping systems for cable vibrations, Mechanics, 25 (2006),135-142
- [25] Hoyle A., Arzanpour S., Shen Y., A novel magnetorheological damper based parallel planar manipulator design, Smart Materials and Structures, 19 (2010), 055028
- [26] Sapiński B., Snamina J., Jastrzębski Ł., Staśkiewicz A., Laboratory stand for testing self-powered vibration reduction systems, Journal of Theoretical and Applied Mechanics, 49 (2011), 1169-1181
- [27] Lord Corporation: Design with MR Fluids
- [28] Lord Corporation: Technical data MRF-132DG MR Fluid
- [29] Lord Corporation: Magnetic circuit design
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0127e437-bade-4f3a-a099-5fd2fabca343