Application of Nonlinear Static Analysis to Evaluate the Side Rack Load Parameters of a Train Car Platform for Pipe Transportation

N. L. Gurzhi; Гуржи Н. Л.; D. V. Kazakov; Казаков Д. В.

doi:10.31857/S0235711923050097

Application of Nonlinear Static Analysis to Evaluate the Side Rack Load Parameters of a Train Car Platform for Pipe Transportation

Autores: Gurzhi N.¹, Kazakov D.¹
Afiliações:
1. Armavir Mechanics and Technology Institute (Branch), Kuban State Technological University
Edição: Nº 5 (2023)
Páginas: 7-15
Seção: НАДЕЖНОСТЬ, ПРОЧНОСТЬ, ИЗНОСОСТОЙКОСТЬ МАШИН И КОНСТРУКЦИЙ
URL: https://journals.rcsi.science/0235-7119/article/view/141772
DOI: https://doi.org/10.31857/S0235711923050097
EDN: https://elibrary.ru/XSVWSX
ID: 141772

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Resumo

The results of comparison of the methods of studying the parameters of embedding reliability for the side rack unit, which is one of the most critical units of the pipe transportation train car platform, are presented. We show the inaccuracy of the existing methodology for calculating the train car platform side rack loading parameters affecting the reliability and safety of freight transportation; we also propose a new calculation method applying nonlinear static analysis with account for the pipe rolling force.

Palavras-chave

train car platform, calculation, nonlinear dynamic analysis, transient processes, finite element, method

Sobre autores

N. Gurzhi

Armavir Mechanics and Technology Institute (Branch), Kuban State Technological University

Email: a_natali@bk.ru
352905, Armavir, Krasnodar krai, Russia

D. Kazakov

Armavir Mechanics and Technology Institute (Branch), Kuban State Technological University

Autor responsável pela correspondência
Email: a_natali@bk.ru
352905, Armavir, Krasnodar krai, Russia

Bibliografia

Бубнов В.М., Тусиков Е.К., Маринюк В.С., Тисенко А.И., Анисимов В.И., Бурков А.В., Никитченко А.А., Андрющенко Н.Л. Патент РФ 2473437, 2013.
Нормы для расчета и проектирования вагонов железных дорог МПС колеи 1520 мм (несамоходных). ГосНИИВ, ВНИИЖТ, 1996.
Технические условия размещения и крепления грузов в вагонах и контейнерах № ЦМ-943. М.: Юридическая фирма “Юртранс”, 2003.
Приложение 14 к СМГС. Правила размещения и крепления грузов в вагонах и контейнерах (По состоянию на 1 июля 2014 года).
ГОСТ 33211-2014 Вагоны грузовые. Требования к прочности и динамическим качествам.
Endo T. et al. A numerical analysis of contact and limit-point behavior in a class of problems of finite elastic deformation // Computers & structures. 1984. T. 18. № 5. C. 899.
Fischer K.A., Wriggers P. Frictionless 2D contact formulations for finite deformations based on the mortar method // Computational Mechanics. 2005. T. 36. № 3. C. 226.
Додонов А.В., Афанасьев А.Е., Хоменко А.А., Иванов А.А. Разработка и апробация методики ресурсных испытаний узла заделки стойки вагона-платформы для лесоматериалов // Транспорт Урала. 2019. № 1 (60). С. 45.
Nikitchenko A., Artiukh V., Shevchenko D., Spitsov D. Application of Nonlinear Dynamic Analysis in Calculation of Characteristics of Frictional Draft Gears // In VIII International Scientific Siberian Transport Forum / Eds. Z. Popovic, A. Manakov, V. Breskich. TransSiberia 2019. Advances in Intelligent Systems and Computing. 2020. V. 1115.
Kazakov D.V., Kuzmenko I.P., Moskvitin A.A., Abelyan A.S. Development and testing of hardware-software complex for diagnostics of freight vehicles energy parameters // IOP Conference Series: Materials Science and Engineering: 1, Stavropol, 28–29 мая 2020 года. 2020. P. 012027. https://doi.org/10.1088/1757-899X/873/1/012027