Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Opracowanie energooszczędnych maszyn wibracyjnych dla branży budowlanej oraz konstrukcyjnej
Języki publikacji
Abstrakty
This paper contains the results of the analysis of motions of a vibration machine actuator and the response of medium with material being processed to the actuator motions. The actuator and the medium in combination are simulated as a discrete-continuous system. Discussed in this paper are the basic parameters of such a system, as well as the modes of resonance, under-resonance, and over-resonance vibrations of the vibration machine actuator. In the paper, some variants of the vibration machine design, which are characterized by enhanced energy efficiency in generating vibrations, are proposed.
Artykuł zawiera wyniki analizy ruchów siłownika maszyny wibracyjnej i reakcji ośrodka z materiałem przetwarzającym ruchy elementu. Połączenie siłownika oraz medium symulowane jest jako dyskretny system ciągły. W artykule omówiono podstawowe parametry układu a także stany rezonansowe, pod-rezonansowe oraz nad-rezonansowe drgań siłownika maszyny. Zaproponowano także szczególne warianty konstrukcji maszyny, które charakteryzują się zwiększoną efektywnością energetyczną w generowaniu drgań.
Wydawca
Czasopismo
Rocznik
Tom
Strony
53--59
Opis fizyczny
Bibliogr. 29 poz., rys., wykr.
Twórcy
autor
- Kyiv National University of Construction and Architecture, 31 Povitroflotsky av. Kiyv, 03037, Ukraine
autor
- Kyiv National university of construction and Architecture, 31 Povitroflotsky av., Kyiv, 03037, Ukraine
autor
- Kyiv National university of construction and Architecture, 31 Povitroflotsky av., Kyiv, 03037, Ukraine
autor
- Vinnytsia National Technical University
autor
- Lublin University of Technology, Nadbystrzycka Str. 38D, 20-618 Lublin, Poland
autor
- Institute Information and Computational Technologies CS MES RK
- Al-Farabi Kazakh National University
autor
- Institute Information and Computational Technologies CS MES RK
- Almaty University of Power Engineering and Telecommunications
Bibliografia
- [1] Sudarshan N.M., Chandrashekar T.R., Impact of vibrations on fresh concrete of conventional and UHPF, Internation Journal of Applied Engineering Research, 12 (2017), 1683-1690
- [2] Sharko A., Models and methods of processing of information on loads of acoustic signals in technical diagnostic systems, Informatyka Automatyka Pomiary w Gospodarce i Ochronie Środowiska, 8 (2018), nr. 3, 15-18
- [3] Nazarenko I.I., Study of the modes and parameters of nonlinear vibration machines, Vibrations in Engineering and Technologies, 2 (2012), 110-114
- [4] Nazarenko I.I., Research and creation of energy-efficient vibration machines based on the stress-strain state of metal and technological environments, The VIII International Conference "Heavy Machinery HM" Kraljevo Serbia, (2014), 85-89
- [5] Yu J., Ashwin, A.S., An auto-parametrically excited vibration energy harvester, Sensors and Actuators, 220 (2014), 69-75
- [6] Peng Z., Zhou C., Research on modeling of nonlinear vibration isolation system based on Bouc-Wen model, Defence Technology, 10(2014), issue 4, 371-374
- [7] KyuLee J., Jeong S., Lee J., Natural frequencies for flexural and torsional vibrations of beams on Pasternak foundation, Soils and Foundations, 54 (2014), issue 6, 1202-1211
- [8] Nikhil T., Chandrahas T., ChaitanyaI C., et. al., Design and development of a test-rig for determining vibration characteristics of a beam, Procedia Engineering, 144 (2016), 312-320
- [9] Ouyang H., Richiedei D., Trevisani A., Zanardo G., Eigenstructure assignment in undamped vibrating systems: a convex-constrained modification method based on receptances, Journal Sound Vibrations, 27 (2012), 397–409
- [10] Diedov O.P., Methodological aspects of static and dynamic tests of machines for technological processes, Vibrations in Engineering and Technologies 71 (2013), nr 3, 50-55
- [11] Nesterenko M.P., Analysis of changes of the coefficient of attached weight of cement-concrete mixture at horizontal vibrations depending on the mixture properties and on conditions for forming products, Scientific Bulletin for Buildingand- Construction Industry Kharkiv 61 (2010) 184-191
- [12] Zapryvoda A.V., Method of calculation of basic parameters of vibration device to form horizontal surfaces, Scientific Bulletin of the National University of Biological Resources and Ecological Activity of Ukraine, Series "Engineering and Power Industry of the Agribusiness Industry" 241 (2016) 373-381
- [13] Nesterenko M.P., Determination of the coefficient of attached weight of cement-concrete mixture at horizontal vibrations depending on the mixture properties and on conditions for forming products, Poltava National Engineering University, Collection of Scientific Papers 1 (2010), 78 – 85
- [14] Nazarenko I.I., Study of energy-saving vibration machines with account of the stress-strain state of technological environment, The IX International Conference "Heavy Machinery HM” Zlatibor Serbia, (2017), 14-15
- [15] Diedov O.P., Propagation of plane stress waves in elasticplastic medium under the action of power load, Kyiv National University of Construction and Architecture "Construction Engineering" Kyiv, 25 (2010), 63-68
- [16] Ruchynskyi M.M., Theory and practice of the development of vibration machines with consideration for the discrete and continuous parameters of vibration machine actuators and media with material being processed, Bulletin of the Kremenchuk National University Kremenchuk, 3 (2011), nr. 68, 102-104
- [17] Bernyk І., Theoretical aspects of formation and development of cavitation processes in a technological environment, MOTROL Commission of Motorization and Energetics in Agriculture, 19 (2017) Nr. 3, 3-12
- [18] Panovko Y.H., Basics of the applied theory of vibrations and impacts, Moscow "Mashinostroyeniye", (1976), 320
- [19] Nazarenko I.I., Applied problems of the theory of vibration systems, Kyiv "Slovo"(2nd edition), (2010), 440
- [20] Vedmitskyi Y.G., Kukharchuk V.V., Hraniak V.F., New nonsystem physical quantities for vibration monitoring of transient processes at hydropower facilities integral vibratory accelerations, Przeglad Elektrotechniczny, 93 (2017), nr. 3, 69-72
- [21] Kukharchuk V.V., Kazyv S.S., Bykovsk, S.A., Discrete wavelet transformation in spectral analysis of vibration processes at hydropower units, Przeglad Elektrotechniczny, 93 (2017), nr 5, 65-68
- [22] Kukharchuk V.V., Hraniak V.F., Vedmitskyi Y.G., Bogachuk V.V., and etc., Noncontact method of temperature measurement based on the phenomenon of the luminophor temperature decreasing, Proc. SPIE 10031, Photonics Applications in Astronomy, Communications, Industry, and High-Energy Physics Experiments, (2016), 100312F
- [23] Kukharchuk V.V., Bogachuk V.V., Hraniak V.F., Wójcik W., Suleimenov B., Karnakova G., "Method of magneto-elastic control of mechanic rigidity in assemblies of hydropower units", Proc. SPIE 10445, Photonics Applications in Astronomy, Communications, Industry, and High Energy Physics Experiments 2017, 104456A
- [24] Vasilevskyi O.M., Kulakov and etc. Vibration diagnostic system for evaluation of state interconnected electrical motors mechanical parameters, Proceedings of SPIE - The International Society for Optical Engineering, 10445, (2017), 104456C
- [25] Vasilevskyi O.M., Calibration method to assess the accuracy of measurement devices using the theory of uncertainty, International Journal of Metrology and Quality Engineering, 5 (2014), article nr. 403
- [26] Vasilevskyi O.M., Advanced mathematical model of measuring the starting torque motors, Technical Electrodynamics, 6 (2013), 76-81
- [27] Wojcik W., Kisala P., The application of inverse analysis in strain distribution recovery using the fibre bragg grating sensors, Metrology and Measurement Systems, 16 (2009), No.4, 649-660
- [28] Vasilevskyi O.M., Yakovlev M.Y., Kulakov P.I., Spectral method to evaluate the uncertainty of dynamic measurements, Technical Electrodynamics, 4 (2017), 72-78.
- [29] Vasilevskyi O.M., Kulakov P.I., Ovchynnykov K.V., Didych V.M., Evaluation of dynamic measurement uncertainty in the time domain in the application to high speed rotating machinery, International Journal of Metrology and Quality Engineering, 8 (2017), article nr. 25.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-24c0d792-ca76-4b8c-9cd8-4afadaf460f0