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Experimental setup for testing rotary mr dampers with energy harvesting capability

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The experimental setup has been developed for laboratory testing of electromechanical energy transducers and rotary magne-torheological (MR) dampers. The design objectives are outlined and the parameters of the key elements of the setup are summarised. The structure of the mechanical and measurement and control systems is presented. Results of functional testing of a newly developed trans-ducer and a MR rotary damper are summarised.
Rocznik
Strony
241--244
Opis fizyczny
Bibliogr. 18 poz., rys., tab., wykr.
Twórcy
autor
  • AGH University of Science and Technology, Faculty of Mechanical Engineering and Robotics, Department of Process Control, Al. Mickiewicza 30, 30-059 Kraków, Poland
  • AGH University of Science and Technology, Faculty of Mechanical Engineering and Robotics, Department of Process Control, Al. Mickiewicza 30, 30-059 Kraków, Poland
Bibliografia
  • 1. An J., Kwon D. S. (2003), Modeling of a Magnetorheological Actuator Including Magnetic Hysteresis, http://citeseerx.ist.psu.edu/ viewdoc/download?doi=10.1.1.101.4352&rep=rep1&type=pdf.
  • 2. Li Z., Zhuo L., Luhrs G., Lin L., Qin Y. (2013), Electromagnetic Energy-Harvesting Shock Absorbers: Design, Modeling and Road Tests. IEEE Transactions on Vehicular Technology, Vol. 62, no.3, 1065−1074.
  • 3. Młot A. (2007), Structural pulsation dampening methods of the electromechanical torque in a brushless DC motor with permanent magnets, PhD thesis. Opole University of Technology, Faculty of electrical engineering, Automatic control and informatics. (in Polish)
  • 4. Sapiński B., Krupa S. (2011), Rotary transducer of mechanical energy into electrical energy, Application for the patent no. P−395 787. (in Polish)
  • 5. Sapiński B. (2011), Experimental study of self-powered and sensing MR damper-based vibration control system. Smart Materials and Structures, Vol. 20, 105012.
  • 6. Sapiński B., Bydoń S. (2002), Application of Magnetorheological Fluid Brake to Shaft Position Control in Induction Motor, Pneumatyka, Vol.3, no.34, 27–29. (in Polish)
  • 7. Sapiński B., Szydło Z. (2013), Magnetorheological damper for torsional vibration with electromechanical rotary transducer. Application for the patent no. P‒403 371 (in Polish)
  • 8. Vavreck A. N., Ho Ch. H. (2005), Characterization of a commercial magnetorheological brake/damper in oscillatory motion, Smart Structures and Materials: Damping and Isolation, 256−267.
  • 9. Wang Z. H., Chen, Z. Q. and Spencer, B. F. (2009), Self-powered and sensing control system based on MR damper, presentation and application, Proc. of SPIE on Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems, 7292, 729240.
  • 10. Wang D. H., Bai X. X.(2013), A magnetorheological damper with an integrated self-powered displacement sensor. Smart Materials and Structures, Vol. 22, 075001.
  • 11. Wang D. H., Bai X. X., Liao W. H.(2010), An integrated relative displacement self-sensing magnetorheological damper: prototyping and testing. Smart Materials and Structures, Vol.19, 105008.
  • 12. Zhu S. Y., Shen W. A., Xu Y. L., Lee W. C.(2012), Linear electromagnetic devices for vibration damping and energy harvesting: Modeling and testing, Engineering Structures, Vol. 34, 198−212.
  • 13. http://www.baldor.com/
  • 14. http://openi.nlm.nih.gov/detailedresult.php?img=3251984_sensors1111305f22&query=the&fields=all&favor=none&it=none&sub=none&uniq=0&sp=none&req=4&simCollection=3142198_1477-7525-9-44-1&npos=86&prt=3
  • 15. http://www.ktr.com/de/home.htm
  • 16. http://www.ni.com/pdf/manuals/374068f.pdf
  • 17. http://www.ni.com/pdf/manuals/374188d.pdf
  • 18. http://www.ni.com/pdf/manuals/374068f.pdf
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9c94d36a-5e94-4717-97a1-7310db6e5853
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