Evaluation of strength and reliability of vehicles

Mykola Buryak; Ruslan Rozoom; Nataliia Falovych; Pavlo Progniy; Pavlo Popovich; Oksana Shevchuk; Oleg Antonyuk; Mykola Buryak; Ruslan Rozoom; Nataliia Falovych; Pavlo Progniy; Pavlo Popovich; Oksana Shevchuk; Oleg Antonyuk

https://doi.org/10.31649/2413-4503-2022-15-1-17-22

Retrieved from Vol. 8, No.1, 2022

Received 02.03.2022, Revised 05.05.2022, Accepted 02.06.2022

Evaluation of strength and reliability of vehicles

Mykola Buryak, Ruslan Rozoom, Nataliia Falovych, Pavlo Progniy, Pavlo Popovich, Oksana Shevchuk, Oleg Antonyuk

At present, the issue of ensuring the strength and reliability of wheeled vehicles, the creation of which requires compliance with all modern requirements, has not been fully resolved. In this regard, improving the methodology for assessing the strength and reliability of vehicles is an urgent task, the solution of which involves finding answers to the following questions: the choice of a rational version of the bearing system and economically sound profiles; selection of materials with appropriate physical and mechanical characteristics, etc. The choice of a rational variant of the load-bearing system of frame structures of vehicles requires a comparative assessment of possible options at all stages of design work. The load-bearing structures of vehicles are statically uncertain. Therefore, the process of assessing the strength and reliability of vehicles with different types of design schemes is a complex task, which today does not have a single methodological solution. In order to solve this problem, the model of the stress-strain state of the spatially loaded frame structure of the HESSTON S 125 solid fertilizer spreader is considered by a modified method of minimum potential deformation energy of structural structures using the Heaviside function. The frame is a welded load-bearing structure consisting of three longitudinal spars connected by a front beam and crossbars. Carrying out the correct and rational analysis of the stress-strain state of such a bearing system is possible only with the use of a modified method of minimum potential deformation energy. As a result of modeling, recommendations were obtained for the rational design of components and components of wheeled vehicles with increased reliability while reducing material consumption. Ultimately, this leads to an increase in their strength and reliability while reducing material consumption

reliability, durability, vehicles, increasing reliability, wheeled vehicles

17-22

Buryak, M., Rozoom, R., Falovych, N., Progniy, P., Popovich, P., Shevchuk, O., & Antonyuk, O. (2022). Evaluation of strength and reliability of vehicles. Journal of Mechanical Engineering and Transport, 8(1), 17-22. https://doi.org/10.31649/2413-4503-2022-15-1-17-22

References

[1] Chernovol, M., Hrankin, S., Malakhov, V., & Cherkun, V. (1998). Reliability of agricultural machinery. Kyiv: Urozhais.

[2] Popovych, P., Rybak, T., Stashkiv, M., & Gospodarskyi, Ya. (2010). Analytical assessment of the resource of load-bearing metal structures of agricultural machines. Bulletin of Kharkiv Petro Vasylenko National Technical University of Agriculture, 100, 17-20.

[3] Popovych, P.V., Lyashuk, O.L., Murovanyi, I.S., Dzyura, V.O., Shevchuk, O.S., & Myndyuk, V.D. (2016). The service life evaluation of fertilizer spreaders undercarriages. INMATEH – Agricultural Engineering, 50(3), 39-46.

[4] Hevko, B.M., Hevko, R.B., Klendii, O.M., Buriak, M.V., Dzyadykevych, Y.V., & Rozum, R.I. (2018). Improvement of machine safety devices. Journal of Advanced Engineering, 58(1), 17-25.

[5] Popovych, P.V. (2015). Methods for evaluating the resource of the load-bearing systems of trailed machines for applying fertilizers, taking into account the influence of aggressive environments. (Doctoral dissertation, Ternopil National Technical University, Ternopil, Ukraine).

[6] Popovych, P.V., Mahlatyuk, L.А., & Kupovych, R.B. (2014). Influence of organic fertilizers on the corrosion-electrochemical characteristics of low-carbon steels. Journal of Mathematical Sciences, 50(2), 284-289.

[7] Popovіch, P.V., & Slobodyan, Z.B. (2014). Corrosion and electrochemical behaviors of 20 steel and st.3 steel in ammonium sulfate and nitrophoska. Journal of Mathematical Sciences, 49(6), 819-826.

[8] Rozum, R.I., Buriak, M.V., Zakharchuk, O.P. (2021). Innovative engines in the history of automobile building. Modern Engineering and Innovative Technologies, 18(2), 64-67.

[9] Falovich, V.A., Falovych, N., & Semenyuk, S. (2021). Principles of development of coordination as an emergent quality of the supply chain of investment goods. Galician Economic Bulletin, 69(2), 146-152.

[10] Falovich, V.A., Tsikh, G.V., & Tymoshyk, M.M. (2019). Conceptual approaches to risk management at industrial enterprises. In V.A. Falovich (Ed.), Economic, social and psychological aspects of modern marketing technologies (pp. 91-108). Ternopil: V.B. Shpak.

[11] Popovych, P.V., & Shevchuk, O.S. (2017). Organization of road transport as a function of road safety. In Road safety: Legal and organizational aspects (pp. 180-184). Kryvyi Rih: Donetsk State University of Internal Affairs.

[12] Popovych, P., Shevchuk, O., & Murovaniy, I. (2017). Increasing the efficiency of transportation technologies by organizational means of providing transport services. Bulletin of Kharkiv Petro Vasylenko National Technical University of Agriculture, 184, 124-130.

[13] Popovych, P.V., Shevchuk, O.S., Matviishyn, A.Y., & Lototska, V.M. (2016). Study of trends in the development of the road freight transport market in modern conditions. Bulletin of the Zhytomyr State University of Technology. Series: Technical Sciences, 2, 224-229.