References
- Encyclopedia of Technology – Metallurgy, 1st edition. Śląsk Publishing House, Reference 10345/E, Katowice, 1985
- https://mlodytechnik.pl/technika/30619-dziecko-i-zarazem-ojciec-rewolucji-przemyslowej-henry-bessemer
- https://pl.wikipedia.org/wiki/Henry_Bessemer
- https://pl.frwiki.wiki/wiki/Proc%C3%A9d%C3%A9_Thomas
- Pater, Z., Basics of metallurgy and foundry, Lublin University of Technology, Lublin, 2014, ISBN: 978-83-7947-088-4
- https://encyklopedia.pwn.pl/haslo/martenowski-proces;3938127.html
- Przybyłowicz, K., Iron alloys engineering, Publishing House of the Kielce University of Technology, Kielce, 2008
- Irving, W.R., Continuous casting of steel, The Institute of Materials Great Britain, 1993, ISBN 0 901716 53 7
- EN 13674-1:2011 + A1:2017, Railways – Track – Rail, part 2: Vignole railway rails 46 kg/m and above, CEN-CENELEC Managemnet Centre, Brussels, 2017
- Żak, S., Quality report on railway production in 2021 year enclosing chemical composition and mechanical properties of rails in steel grade R260, AMP Mat., unpublished; 2021, p. 1–16
- Żak, S., Sarna, J., Merta, J., Quality assessment of Huta Katowice production rails, Published materials of the 23 Scientific and Technical Conference on Huta Katowice S.A., 2003, p. 32–48
- Bałuch, H., Perspektywy zmniejszenia wad powierzchniowych szyn, Materiały V Ogólnopolskiej Konferencji Technicznej Spawalnictwo Dróg Szynowych, Kraków: 2013
-
[13]
Kowalczyk, D., Antolik, Ł., Mikłaszewicz, I., Researches of the head check defect in rails using CT method as a part of the process focused on optimalisation ultrasonic transducers system, Proceedings of 48th National Conference of Non-destructive Testing (KKBN), Wisła, Poland, Published by „Badania Nieniszczące i Diagnostyka” SIMP Publishing Agenda; 2019, p. 45–48, 10.26357/BNiD.2019.024
Kowalczyk D. Antolik Ł. Mikłaszewicz I. Researches of the head check defect in rails using CT method as a part of the process focused on optimalisation ultrasonic transducers system Proceedings of 48th National Conference of Non-destructive Testing (KKBN), Wisła, Poland Published by „Badania Nieniszczące i Diagnostyka” SIMP Publishing Agenda 2019 p. 45 48 10.26357/BNiD.2019.024
- Lesiak, P., Wlazło, M., Badania wad Head Cecking w szynach kolejowych metoda optyczną”. Prace Naukowe Politechniki warszawskiej z, Transport, 2014, 104: 33–42
- Popović, Z., Radović, V., Lazarević, L., Vukadinović, V., Tepić, G., Rail inspection on RCF defects, Metalurgija, 2013, 52(4): 537–540
- Tomićić-Trolaković, M., Guidelines for the rail grade selection, Metalurgija, 2014, 53(4): 717–720
- Bałuch, H., Zagrożenia w nawierzchni kolejowej – badania i przeciwdziałanie, Problemy Kolejnictwa, Zeszyt, 2013, 158: 89–109
- Grulkowski, S., Kędra, Z., Zariczny, J., Problemy diagnostyki szyn kolejowych w torach i rozjazdach, Inżynieria Morska i Geotechnika, 2014, 5: 497–504
- Licow, R., Tomaszewski, F., Identyfikacja wad powierzchni tocznej szyn za pomocą sygnału wibroakustycznego, Problemy Kolejnictwa, Zeszyt, 2019, 184: 71–76
- Licow, R., Tomaszewski, F., Analysis of the reasons to wear and damage the rails depending on technical - operating conditions of the track, Rail Vehicles, 2017, 4: 1–9
- Jabłońska, M., Lewandowski, F., Chmiela, B., Gronostajski, Z., Advanced heat treatment of pearlitic rail steel, Materials, 2023, 16: 6430
- Królicka, A., Lesiuk, G., Radwański, K., Kuziak, R., Janik, A., Mech, R., et al., Comparison of fatigue crack growth rate: pearlitic rail versus bainitic rail, Int. J. Fatigue, 2021, 149: 106280
- Li, G., Liu, Z., Chen, L., Hou, X., Numerical calculation of the comprehensive heat transfer coefficient on the surface of rail in the spray cooling process, J. Met. Eng., 2015, 4: 13–17
- Dean, S.W., Sahay, S.S., Mohapatra, G., Totten, G.E., Overview of pearlitic rail steel: accelerated cooling, quenching, microstructure and mechanical properties, J. ASTM Int., 2009, 6: 1–26
- Kuziak, R., Pidvysots’kyy, V., Rauch, Ł., Pietrzyk, M., Zygmunt, T., Method for heat treatment of the running surface of the head of the pearlitic steel rails, J. Met. Mater., 2021, 73: 9–15
- Kuziak, R., Pidvysots’kyy, V., Pernach, M., Rauch, Ł., Zygmunt, T., Pietrzyk, M., Selection of the best phase transformation model for optimization of manufacturing processes of pearlitic steel rails, Arch. Civ. Mech. Eng., 2019, 19: 535–546
- Malkiewicz, T., Metallurgy of iron alloys, Warsaw-Kraków: National Scientific Publishing House; 1976
- Żak, S., Woźniak, D., Residual stresses in railway rails. Monograph No. 18, Monographs Publishing House of the Ferrous Metallurgy Institute, Gliwice, 2022, ISBN: 978-83-958775-7-5