Abstract
The designed solution of the powertrain of four-wheeled mobile platform have been developed. Identification of the internal loads has been carried out by using the finite element method. The two analyses based on the internal load of these elements have been performed. The first analysis gave an information about the reduced stress of the driver and a sleeve for the powertrain model, loaded by torque and forces of gravity. The second analysis was performed only for the system loaded by the forces of gravity. The results are presented on the graphs.
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References
ADINA, Theory and Modeling Guide. Volume 1: ADINA. ADINA R&D, Inc., Watertown 2007.
Dietrich Teigler Nachf. GmbH&Co.: Mechanical properties of Vulkollan, www.teigler.com.
Dunkermotoren GmbH: Brushless DC-Motors, 07/2009, PPH. WObit.
Informator techniczny firmy DOSTAL (Technical guides of DOSTAL company), www.dostal.com.pl.
Jaskot A., Posiadała B., Śpiewak S.: “Dynamics Model of the Four-Wheeled Mobile Platform”, Dynamical Systems. Mechatronics and Life Sciences, 2015, s. 227–236.
Kania L., Śpiewak S.: “Wyznaczanie oporów ruchu łożyska tocznego wieńcowego w oparciu o rozkład obciążenia wewnętrznego” (The determination of the resistance to motion of slewing bearing based on distribution of the internal load). Tribologia 1/2013s. 59–68.
SKF Group 2013: Rolling bearings.
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Jaskot, A., Posiadała, B., Śpiewak, S. (2017). Analysis of Construction and Internal Load of the Powertrain of the Prototypical Four-Wheeled Mobile Platform. In: Rusiński, E., Pietrusiak, D. (eds) Proceedings of the 13th International Scientific Conference . RESRB 2016. Lecture Notes in Mechanical Engineering. Springer, Cham. https://doi.org/10.1007/978-3-319-50938-9_22
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DOI: https://doi.org/10.1007/978-3-319-50938-9_22
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