| Wybrane publikacje |
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| 1 | Rozdział w monografii 2026
Wiesław Fiebig,| The methodology for noise reduction in fluid power systems. W: Advances in Hydraulic and Pneumatic Drives and Control, Centrifugal Pumps, Valves, and Seals 2025 / eds. Jarosław Stryczek, Urszula Warzyńska, Michał Banaś. Cham : Springer, cop. 2026. s. 219-228. ISBN: 978-3-032-07391-4; 978-3-032-07392-1 | | Zasoby:DOIURL | |
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| 2 | Artykuł 2025
Łukasz Zawarczyński, Adam B Dmochowski, Wiesław Fiebig,| Analiza efektywności energetycznej stanowiska elektrohydraulicznego = Energy efficiency analysis of the electrohydraulic test bench. Napędy i Sterowanie. 2025, nr 2, s. 28-33. ISSN: 1507-7764 | | Zasoby:URL | |
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| 3 | Artykuł 2025
Willy Prastiyo, Wiesław Fiebig,| Balancing of slider-crank and scotch-yoke mechanisms by the use of mechanical resonance: simulation and experiment. Simulation Modelling Practice and Theory. 2025, vol. 142, art. 103137, s. 1-31. ISSN: 1569-190X; 1878-1462 | | Zasoby:DOIURLSFX |    |
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| 4 | Referat konferencyjny 2024
Paulina K Szwemin, Wiesław Fiebig,| Semi-empirical model of the leakage flow in external gear pumps. W: Proceedings of Bath/ASME 2024 Symposium on Fluid Power and Motion Control (FPMC2024), September 11-13, 2024, Bath, United Kingdom. [Little Falls, NJ] : ASME, cop. 2024. ref. 141007, s. 1-7. ISBN: 978-0-7918-8819-3 | | Zasoby:DOIURL | |
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| 5 | Referat konferencyjny 2024
Wiesław Fiebig, Willy Prastiyo,| Reduction of dynamic loads in piston compressors through the use of mechanical resonance. W: 2024 International Maha Fluid Power Conference, West Lafayette, IN, USA, September 3-5, 2024 / Eds. Andrea Vacca, Lizhi Shang, Jose Garcia-Bravo. [Gistrup, Denmark : River Publishers], 2024. s. 1-17. ISBN: 978-87-7004-745-6 | | Zasoby:DOIURL | |
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| 6 | Artykuł 2024
Willy Prastiyo, Muhamad Maris Al Gifari, Wiesław Fiebig,| Linkage suspension sag estimation using the static equilibrium method. Journal of Engineering Research. 2024, s. 1-8. ISSN: 2307-1877; 2307-1885 | | Zasoby:DOIURL |  |
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| 7 | Referat konferencyjny 2023
Wiesław Fiebig, Willy Prastiyo,| An innovative method of utilization of mechanical resonance for the reduction of dynamical loads in the reciprocating compressors. W: 29th International Congress on Sound and Vibration (ICSV29) : the annual congress of the International Institute of Acoustics and Vibration (IIAV), Prague 9-13 July 2023 / ed. Eleonora Carletti. Prague : International Institute of Acoustics and Vibration (IIAV), cop. 2023. ref. 643, s. 1-7. ISBN: 978-80-11-03423-8 | | Zasoby:URL | |
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| 8 | Artykuł 2023
Feng Wang, Zihan Wu, Bing Xu, Wiesław Fiebig,| A Mode-driven control strategy to reduce electric drive peak power of hybrid wheel loader propulsion system. IEEE Transactions on Vehicular Technology. 2023, vol. 72, nr 5, s. 5948-5961. ISSN: 0018-9545; 1939-9359 | | Zasoby:DOIURLSFX | |
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| 9 | Referat konferencyjny 2022
Zihan Wu, Feng Wang, Bing Xu, Wiesław Fiebig,| An electric-hydraulic hybrid wheel loader with mode-driven control strategy. W: Proceedings of Bath/ASME 2022 Symposium on Fluid Power and Motion Control (FPMC2022), September 14-16, 2022, Bath, United Kingdom. [New York, NY] : ASME, cop. 2022. ref. V001T01A047, s. 1-8. ISBN: 978-0-7918-8633-5 | | Zasoby:DOI | |
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| 10 | Artykuł 2022
Wiesław Fiebig, Willy Prastiyo,| Utilization of mechanical resonance for the enhancement of slider‐crank mechanism dynamics in gas compression processes. Energies. 2022, vol. 15, nr 20, art. 7769, s. 1-26. ISSN: 1996-1073 | | Zasoby:DOIURLSFX | |
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