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Possibilities of effective passive vibration isolation of hydraulic valves

Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The following paper describes the effect of the introduced vibration isolation on the operation of a hydraulic valve. The method of transmitting the external force to the valve control element and examples of vibration sources are presented. The balance of forces acting on the valve spool and the flow intensity in the tested hydraulic system are determined. The assumptions are simplified and discussed in detail. On their basis, numerical simulations have been carried out and verified by experimental tests. The paper ends with brief conclusions.
Rocznik
Strony
113--127
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
  • Wrocław University of Science and Technology, Faculty of Mechanical Engineering, Wrocław, Poland
  • Wrocław University of Science and Technology, Faculty of Mechanical Engineering, Wrocław, Poland
Bibliografia
  • 1. Addison A., Vacca A., Cristofori D., 2017, Active vibration damping in hydraulic construction machinery, Procedia Engineering, 176, 514-528.
  • 2. Balachandran B., Magrab E.B., 2009, Vibrations, Cengage Learning, Toronto.
  • 3. Bocian M., 2019, Selected Methods of Modelling and Identification of Complex Dynamic Systems, Publishing House of the Wrocław University of Science and Technology, Wrocław.
  • 4. Bocian M., Kulisiewicz M., 2014, Method of identifying nonlinear characteristic of energy dissipation in dynamic systems with one degree of freedom, Archives of Civil and Mechanical Engineering, 14, 3, 354-359.
  • 5. Bogdevičius M., Karpenko M., Bogdevičius P., 2021, Determination of rheological model coefficients of pipeline composite material layers based on spectrum analysis and optimization, Journal of Theoretical and Applied Mechanics, 59, 2, 265-278.
  • 6. Cempel C., 1989, Applied Vibroacoustic, Polish Scientific Publishers, Warszawa.
  • 7. Fiebig W., Wróbel J., 2017, Two stage vibration isolation of vibratory shake-out conveyor, Archives of Civil and Mechanical Engineering, 17, 2, 199-204.
  • 8. Gao P., Yu T., Zhang Y., Wang J., Zhai J., 2021, Vibration analysis and control technologies of hydraulic pipeline system in aircraft, Chinese Jornal of Aeronautics, 34, 4, 83-114.
  • 9. Glanowski G., 2001, Hydraulic proportional control technique, Hydraulics and Pneumatics, 1.
  • 10. Goliński J., 1979, Vibration Isolation of Machines and Devices, Scientific Publishing of WNT, Warszawa.
  • 11. Guo N., Wang F., Wang L., 2019, Design and analysis of an active-controlled hydraulic low-frequency vibration isolator, Journal of Engineering, 2019, 13, 98-101.
  • 12. Harris C.M., Piersol A.G., 2002, Shock and Vibration Handbook, McGraw-Hill, New York.
  • 13. Ibrahim R.A., 2008, Recent advances in nonlinear passive vibration isolators, Journal of Sound and Vibration, 314, 371-452.
  • 14. Kollek W., Osiński P., Stosiak M., Wilczyński A., Cichoń P., 2014, Problems relating to high-pressure gear micropumps, Archives of Civil and Mechanical Engineering, 14, 1, 88-95.
  • 15. Kulisiewicz M., Piesiak S., Bocian M., 2001, Identification of nonlinear damping using energy balance method with random pulse excitation, Journal of Vibration and Control, 7, 5, 699-710.
  • 16. Kudźma Z., Stosiak M., 2013, Influence of throttling control methods on the noise of a hydrostatic transmission, Hydraulics and Pneumatics, 33, 1, 21-25.
  • 17. Kudźma Z., Stosiak M., Herok S., 2014, Setup for determining static and dynamic characteristics of proportional valves (in Polish), Pomiary Automatyka Robotyka, 18, 3, 112-119.
  • 18. MacDuff J.N., Curreri J.R., 1960, Vibrations in Technology, State Technical Publishers, Warszawa.
  • 19. Osiecki A., 1998, Hydrostatic Drive of Machines, Scientific Publishing of WNT, Warszawa.
  • 20. Pawlaczyk-Łuszczyńska M., Augustyńska D., Kaczmarska A., 2001, Infrasound noise. Measurement procedure. Documentation of the proposed occupational exposure limit values, Fundamentals and Methods of Work Environment Assessment, XVII, 2(28).
  • 21. Pizoń A., 1995, Electrohydraulic analog and digital automation systems. Scientific publishing of WNT, Warszawa.
  • 22. Stosiak M., 2006, The influence of mechanical vibrations of the substrate on pressure pulsation in the hydraulic system, Hydraulics and Pneumatics, 3, 5-8.
  • 23. Stryczek S., 2005, Hydrostatic Drive, Scientific Publishing of WNT, Warszawa.
  • 24. Tomasiak E., 2001a, Hydraulic and Pneumatic Drives and Controls, Publishing House of the Silesian University of Technology, Gliwice.
  • 25. Tomasiak E., 2001b, Interdiscyplinarity of the proportional control technique, Hydraulics and Pneumatics, 4.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cdf20085-f92c-4cd2-bf39-589fae4fb2b4
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