Vlasova A.N., Perfilieva P.V., Kashkarev A.S., Astashkov N.P. Problemy povysheniya effektivnosti i kachestva ispol'zovaniya vagonnogo parka v sovremennyh usloviyah [Problems of improving efficiency and quality of use of the wagons park in modern conditions]. Molodaya nauka Sibiri: ehlektronnyj nauchnyj zhurnal [Young science of Siberia: electronic scientific journal], 2020, no. 2. [Accessed 09/07/20]
The relevance of the work is due to the need to improve the design of gondola car in order to minimize or completely eliminate grab discharge, increase cargo capacity, reduce tare and increase distance run between overhauls. The analysis of directions for improving the design of a gondola car is presented taking into account external factors that arise during the operation of rolling stock.
The composition of the domestic rolling stock is largely determined by the structure of the industry, which is why the article focuses on the non-pulling rolling unit - gondola car. Ensuring the efficiency of gondola car during loading and unloading operations and reliability during further operation are a priority when implementing the transportation process.
1. Astashkov N.P. Analysis of the directions of modernization of isothermal rolling stock / N.P. Astashkov, I.G. Kovalevsky, O.N. Kutepova // Transport infrastructure of the Siberian region: materials of the Ninth Intern. scientific-practical Conf., April 10 - 13, 2018 Irkutsk: in 2 t. Irkutsk: IrGUPS, 2018. Vol. 1. C. 31-36.
2. Belogolov Yu.I. A systematic approach to the management and control of human resources in the organization of uninterrupted operation of the railway transport system / Yu.I. Belogolov, V.A. Olentsevich // Modern technologies. System analysis. Modeling. 2016. No. 2 (50). P. 90-95.
3. Viznyak R.I. About the safety of freight cars / Viznyak RI, Lovskaya A.A. // Railway transport. 2011. No. 12. P. 48-49.
4. Korolkov E.P. On the issue of increasing axial load / Korolkov EP, Koturanov Sh.N., Korzhin S.N. // World of transport. 2015.Vol. 13. No. 1 (56). P. 38-44.
5. Koturanov V.N. Algorithm for the estimated estimates of the technical characteristics of freight cars / Koturanov V.N., Kozlov MP // Railway transport. 2009. No. 7. P. 48-50.
6. Lukin V.V. The influence of design features and other factors on the effectiveness of tanks and gondola cars / Lukin V.V., Medvedev V.P. // Study of the reliability and efficiency of rolling stock. Omsk, 1975.P. 15-23.
7. Petrov G.I. Adaptation of the mathematical model of a gondola car to the conditions of unloading the body by the tipping method / Petrov GI, Chepurchenko IV, Panachev O.I.// Transport business of Russia. 2017. No. 1. P. 138-142.
8. Chepurchenko I.V. Reliability analysis of gondola car body structures in operation / Chepurchenko I.V., Nosyrev D.Ya., Kroshechkina I.Yu. // Science and technology of transport. 2018. No. 4. P. 34-40
9. Chepurchenko I.V. Using the theory of optimal design for improving the design of the deep-wagon gondola / Chepurchenko IV, Nosyrev D.Ya., Korkina SV // Bulletin of the Volga transport. 2018. No. 3 (69). P. 28-32.
10. Investment in infrastructure 2020 [Electronic resource]. – URL: https://infraone.ru/sites/default/files/analitika/2020/investitsii_v_infrastrukturu_2020_infraone_research.pdf/ – The title from the screen. (Accessed: 23/04/2020)
8. Чепурченко И.В. Анализ надежности конструкций кузовов полувагонов в эксплуатации / Чепурченко И.В., Носырев Д.Я., Крошечкина И.Ю. // Наука и техника транспорта. 2018. № 4. С. 34–40.
9. Чепурченко И.В. Использование теории оптимального проектирования для усовершенствования конструкции глуходонного полувагона / Чепурченко И.В., Носырев Д.Я., Коркина С.В. // Вестник транспорта Поволжья. 2018. № 3 (69). С. 28–32.
10. Инвестиции в инфраструктуру 2020 [Электронный ресурс]. –URL: https://infraone.ru/sites/default/files/analitika/2020/investitsii_v_inf.... – Загл. с экрана. (дата обращения: 23.04.2020)