APPLICABILITY ANALYSIS OF HEXAHEDRAL HOLLOW PROFILES AS COMPONENT ELEMENTS OF SUPPORTING SYSTEMS FOR GONDOLA CARS

O. V. Fomin

doi:10.15802/stp2014/33403

Authors

O. V. Fomin Donetsk Institute of Railway Transport of Ukrainian State Academy of Railway Transport, Ukraine https://orcid.org/0000-0003-2387-9946

DOI:

https://doi.org/10.15802/stp2014/33403

Keywords:

gondola cars, component elements of supporting systems, hexahedral hollow profile

Abstract

Purpose. The purpose of work is presentation of features and results of the conducted works on determination of introduction expedience of hexahedral hollow profiles as the component elements of the modern supporting systems of railway freight gondola cars. Methodology. During the research an introduction methodology of different types of profiles as alternative to the existent supporting elements of the body module for freight car was used. This methodology had been developed by the author before. It is oriented to the reduction in material consumption and providing of strength requirements and operating reliability of the car design under study. The developed methodology includes the procedures of admissible values calculation of the resistance moments of the section of the hexahedral hollow profile, which is being introduced. It also includes the determination of optimum (i.e. characterized by the minimum material consumption when meeting the durability requirements) values of height and minimum thickness of profile in the conditions of construction limitations. At the same time the admissible resistance moments are calculated as such, which are equal to the value of existent implementation of supporting element or as such that are determined taking into account the surplus design reserve. The first direction is applied in this work. Findings. As a result of the conducted research the introduction expedience of hexahedral hollow profiles as vertical rods of the lateral and latitude belts of the walls of the butt-end freight gondola cars is grounded and the optimum parameters of such replacements are determined. Originality. The problem of the use expedience of hexahedral hollow profiles as the supporting elements of the freight gondola cars bodies was first considered in the article. To solve this problem the mathematical models describing the dependence of basic strength and mass indexes of the proper profiles on varying the geometrical parameters, as well as the auxiliary graph are developed. Practical value. Practical implementation of the results of conducted research for universal freight gondola cars will reduce their empty weight and accordingly increase their lifting capacity for almost 100 kg. upon the implementation of durability and operating reliability requirements. This taking into account the large scale of their park will provide a considerable economic effect at their producing and operation. The materials developed and presented in the article can be used for consideration and solution of analogical tasks for other types of freight cars, and also for other facilities of the transport engineering. According to the results of the work an invention application of Ukraine was applied.

Author Biography

O. V. Fomin, Donetsk Institute of Railway Transport of Ukrainian State Academy of Railway Transport

Dep. «Rolling Stock of Railways»

References

Gorobets V.L., Savvin Yu.I. Model vynoslivosti materialov i konstruktsiy s uchetom evolyutsii ikh mekha-nicheskikh kharakteristik [Durability model of materials and structures, taking into account the evolution of their mechanical characteristics]. Vіsnyk Dnіpropetrovskoho natsіonalnoho unіversytetu zalіznichnoho transportu іmenі akademіka V. Lazariana [Bulletin of Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan], 2008, issue 21, pp. 7-15.

Gorobets V.L. Otsenka koeffitsientov zapasa vynoslivosti i ekvivalentnykh po razrushayushchey sposobnosti tsiklicheskikh napryazheniy po dannym naturnykh ispytaniy podvizhnogo sostava [Evaluation of durabity factors and equivalent cyclic stresses according to destroying ability on the field tests of rolling stock]. Vіsnyk Dnіpropetrovskoho natsіonalnoho unіversytetu zalіznichnoho transportu іmenі akademіka V. Lazariana [Bulletin of Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan], 2003, issue 1, pp. 116-122.

GOST 26725-97. Poluvagony chetyrekhosnyye universalnyye magistralnykh zheleznykh dorog kolei 1520 mm. Obshchiye tekhnicheskiye usloviya [State Standard 26725-97. Four-axle universal gondola cars of the mainline railroads with the track 1520 mm]. Kyiv, Gosstandart Ukrainy Publ., 1999. 13 p.

Yermakov S.M., Zhiglyavskiy A.A. Matematicheskaya teoriya optimalnogo eksperimenta [Mathematic theory of optimal experiment]. Moscow, Nauka Publ., 1987. 320 p.

NB ZhT TsV 01-98. Vagony gruzovyye zheleznodorozhnyye. Normy bezopasnosti. MPS Rossiya [NB ZhT TsV 01-98. Railway freight cars. Safety Regulations. Ministry of Transportation inRussia]. Moscow, VNIIV-VNIIZhT Publ., 1998. 17 p.

Normy dlya rascheta i proyektirovaniya novykh i moderniziruyemykh vagonov zheleznykh dorog MPS kolei 1520 mm (nesamokhodnykh) [The rules for calculation and design of new and modernized railway cars Transportation Ministry with the track1520 mm (non-self propelled)]. Moscow, VNIIV-VNIIZhT Publ., 1983. 260 p.

Normy rascheta i proyektirovaniya vagonov zheleznykh dorog MPS kolei 1520 mm (nesamokhodnykh) [The rules for calculation and design of railway cars of Transportation Ministry with the track1520 mm (non-self propelled)]. Moscow, GosNIIV-VNIIZhT Publ., 1996. 354 p.

Fomin O.V. Alhorytm vyznachennia optymalnykh heometrychnykh parametriv skladovykh elementiv vantazhnykh vahoniv na osnovi uzahalnenykh matematychnykh modelei [Algorithm for determining the optimal geometric parameters of the constituent elements of freight cars based on generalized mathematical models]. Nauka ta prohres transportu. Visnyk Dnipropetrovskoho natsionalnoho universytetu zaliznychnoho transportu − Science and Transport Progress. Bulletin of Dnipropetrovsk National University of Railway Transport, 2013, no. 6 (48), pp. 140-146.

Fomin O.V. Doslidzhennia defektiv ta poshkodzhen nesuchykh system zaliznychnykh napivvahoniv [The study of defects and damages of bearing systems of gondolas]. Kyiv, DETUT Publ., 2014. 299 p.

Fomin O.V. Optymizatsiine proektuvannia elementiv kuzoviv zaliznychnykh napivvahoniv ta orhanizatsiia yikh vyrobnytstva [Optimization design of the body elements of railway gondolas and organization of their production]. Donetsk, DonIZT UkrDAZT Publ., 2013. 251 p.

Zhao F., Xie J., Yuan Y.http://www.scopus.com/authid/detail.url?authorId=55264598500&eid=2-s2.0-84874232945">, Shi X. Damage calculation and fatigue life prediction for freight car body. Advanced Materials Research, 2013, vol. 652-654, pp. 1357-1361. doi: 10.4028/www.scientific.net/AMR.652-654.1357.

Konyukhov A.D., Drits A.M., Shurtakov A.K. Properties of welds of sheets, made of 1565ch (1565) alloy, applied to the bodies of freight cars. http://www.scopus.com/source/sourceInfo.url?sourceId=28901&origin=recordpage">Tsvetnye Metally, 2014, no. 3, pp. 71-76.

http://www.scopus.com/authid/detail.url?authorId=55460543600&eid=2-s2.0-84904758662">Zhao F.http://www.scopus.com/authid/detail.url?authorId=16641522800&eid=2-s2.0-84904758662">, Xie J. Influence of small stress cycles on the fatigue damage of C70E car body. Journal of Mechanical Engineering, 2014, vol. 50, issue 10, pp. 121-126. doi: 10.3901/jme.2014.10.121.