Geometry variation of ballasted railway tracks due to weather conditions

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V.Jóvér,, Széchenyi István University, Győr, Hungary

M.Sysyn,, Institute of Railway Systems and Public Transport, TU Dresden, Dresden, the Federal Republic of Germany

J.Liu,, Southwest Jiaotong University, Chengdu, the People’s Republic of China

S.Fischer*,, Széchenyi István University, Győr, Hungary

* Corresponding author e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

повний текст / full article

Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu. 2023, (1): 074 - 079


Investigate and establish the relationship between track geometry measurements and weather conditions to determine the parameters that influence the lifetime of railway tracks’ superstructure system. The study of ballasted beds of railway tracks is very important for operation and maintenance in case of main lines, industrial sidings and mine transport.

Determination of the annual load of the selected section based on the regulations. Compari of the track parameters measurements made by TrackScan 4.01 instrument in different seasons and temperatures. Among the parameters measured by the instrument, the track gauge, alignment, longitudinal level, and superelevation parameters are considered and analyzed in this article.Since the main lines’ traffic are permanently loaded with passenger and freight transport and the industrial sidings and mine tracks are used in the production process, the examinations can only be done on tramway tracks during the standstills at night. The results of these measurement on tramway tracks can help to understand the identify of railway tracks’ lifetime and can be used in mainlines, industrial and mining railway tracks.

The change in the average values of selected track geometrical parameters is analyzed, considering the typical weather conditions. Based on the measurement and results, there is an evident connection between the evaluated results of track geometry measurements and the change in weather conditions.

Finding the relationship between changes in track geometry values and weather conditions on the basis of an evaluation of track geometry measurements taken on average every third month.

Practical value.
The results can then be used as input data for determining the service life of the track superstructure in the case of tramways, mainlines, industrial and mining railway tracks.

railway transport, deterioration, ballasted track, traffic load, track gauge


1. Ahac, M., & Lakušić, S. (2015). Tram track maintenance-planning by gauge degradation modelling. Transport, 30(4), 430-436.

2. Czinder, B., Vásárhelyi, B., & Török, Á. (2021). Long-term abrasion of rocks assessed by micro-Deval tests and estimation of the abrasion process of rock types based on strength parameters. Engineering Geology, 282, 105996.

3. 100-year-old Hungarian Geological Institute (2022, September 21). Geological map of Hungary. Retrieved from

4. Szabó, B., Pásthy, L., Orosz, Á., & Tamás, K. (2022). The Investigation of Additively Manufacturing and Moldable Materials to Produce Railway Ballast Grain Analogs. Frattura ed Integrità Strutturale, 60, 213-228.

5. Colas Északkő Ltd (2022). Price list. Retrieved from

6. Hungrail (2022, September 21). Cargo, unprecedented: subsidising the energy costs of much more polluting road freight transport as opposed to green and efficient rail. Retrieved from

7. Naumov, V., Taran, I., Litvinova, Z., & Bauer, M. (2020). Optimizing resources of multimodal transport terminal for material flow service. Sustainability (Switzerland), 12(16), 6545.

8. Saukenova, I., Oliskevych, M., Taran, I., Toktamyssova, A., Aliakbarkyzy, D., & Pelo, R. (2022). Optimization of schedules for early garbage collection and disposal in the megapolis. Eastern-European Journal of Enterprise Technologies, 1(3-115), 13-23.

9. Milosevic, M., Pålsson, B., Nissen, A., Johansson, H., & Niel­sen, J. C. O. (2023). Model-Based Remote Health Monitoring of Ballast Conditions in Railway Crossing Panels. In P. Rizzo, & A. Milazzo (Eds.). European Workshop on Structural Health Monitoring. EWSHM 2022. Lecture Notes in Civil Engineering, 253. Springer, Cham.

10. Rao, P. K. V., Varma, G. R. P., & Vivek, K. S. (2022). Structural dynamic analysis of freight railway wagon using finite element analysis. Materials Today: Proceedings, 66(3), 967-974.

11. Sweta, K., & Hussaini, S. K. K. (2022). Role of particle breakage on damping, resiliency and service life of geogrid-reinforced ballasted tracks. Transportation Geotechnics, 37, 100828.

12. Koohmishi, M. (2021). Assessment of strength of individual ballast aggregate by conducting point load test and establishment of classification method. International Journal of Rock Mechanics and Mining Sciences, 141, 104711.

13. Taran, I. A. (2012). Interrelation of circular transfer ratio of double-split transmissions with regulation characteristic in case of planetary gear output. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, (3), 78-85.

14. Samorodov, V., Bondarenko, A., Taran, I., & Klymenko, I. (2020). Power flows in a hydrostatic-mechanical transmission of a mining locomotive during the braking process. Transport Problems, 15(3), 17-28.

15. BKV Zrt (2019). Infrastructure design guidelines for tramways. Retrieved from

16. Gáspár, L., Horvát, F., & Lublóy, L. (2011). Lifetime of transport infrastructure facilities. Universitas-Győr Nonprofit Kft., Győr.

17. Jóvér, V., & Fischer, S. (2022). Investigation of superstructures of tramway line no. 1 in Budapest. Baltic Journal of Road and Bridge Engineering, 17(2), 75-106.

18. Jóvér, V., Gáspár, L., & Fischer, S. (2022). Investigation of Tramway Line No. 1, in Budapest, Based on Dynamic Measurements. Acta Polytechnica Hungarica, 19(3), 65-76.

19. BKV Zrt (2019). Technical instructions for the construction and maintenance of tramway tracks, P.1. Retrieved from

20. Metalelektro Railway Diagnostic (2022, September 21). Track Geometry Measurement. Retrived from

21. Jóvér, V., Gáspár, L., & Fischer, S. (2020). Investigation of Geometrical Deterioration of Tramway Tracks. Nauka ta Progres Transportu, 86(2), 46-59.

22. Weather archive (2022, September 21). Retrived from



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