Details

Title

The Effect of Work Hardening on the Structure and Hardness of Hadfield Steel

Journal title

Archives of Foundry Engineering

Yearbook

2024

Volume

vol. 24

Issue

No 1

Authors

Affiliation

Bańkowski, Damian : Kielce University of Technology, Poland ; Młynarczyk, Piotr S. : Kielce University of Technology, Poland ; Depczyński, Wojciech P. : Kielce University of Technology, Poland ; Bolanowski, Kazimierz : Kielce University of Technology, Poland

Keywords

Manganese steel ; Hardness ; Modified Hadfield steel ; Solution heat treatment ; Computed tomography

Divisions of PAS

Nauki Techniczne

Coverage

14-20

Publisher

The Katowice Branch of the Polish Academy of Sciences

Bibliography

[1] Kalandyk, B., Tęcza, G., Zapała, R., Sobula, S. (2015). Cast high-manganese steel – the effect of microstructure on abrasive wear behaviour in miller test. Archives of Foundry Engineering. 15(2), 35-38. DOI: 10.1515/afe-2015-0033.
[2] Bartlett, L.N. & Avila, B.R. (2016). Grain refinement in lightweight advanced high-strength steel castings. International Journal of Metalcasting. 10, 401-420, DOI: 10.1007/s40962-016-0048-0.
[3] Guzman Fernandes, P.E. & Arruda, Santos, L. (2020). Effect of titanium and nitrogen inoculation on the microstructure, mechanical properties and abrasive wear resistance of Hadfield Steels. REM - International Engineering Journal. 73(5), 77-83. https://doi.org/10.1590/ 0370-44672019730023
[4] Chen, C., Lv, B., Feng, X., Zhang, F. & Beladi, H. (2018). Strain hardening and nanocrystallization behaviors in Hadfield steel subjected to surface severe plastic deformation. Materials Science and Engineering: A. 729, 178-184. DOI:10.1016/j.msea.2018.05.059.
[5] Chen, C., Zhang, F.C., Wang, F., Liu, H. & Yu, B.D. (2017). Efect of N+Cr alloying on the microstructures and tensile properties of Hadfield steel. Materials Science & Engineering. 679, 95-103. DOI:10.1016/j.msea.2016.09.106.
[6] Bolanowski, K. (2008). Wear of working elements made of Hadfield cast steel under industrial conditions. Problemy Eksploatacji. 2, 25-32.
[7] Tęcza, G., Sobula, S. (2014). Effect of heat treatment on change microstructure of cast high-manganese Hadfield steel with elevated chromium content. Archives of Foundry Engineering. 14(3), 67-70.
[8] Gürol, U., Karadeniz, E., Çoban, O., & Kurnaz, S.C. (2021). Casting properties of ASTM A128 Gr. E1 steel modified with Mn-alloying and titanium ladle treatment. China Foundry. 18, 199-206. https://doi.org/10.1007/s41230-021-1002-1
[9] Pribulová, A., Babic, J. & Baricová, D. (2011). Influence of Hadfield´s steel chemical composition on its mechanical properties. Chem. Listy. 105, 430-432.
[10] Przybyłowicz, K. (2008). Iron alloys engineering. Kielce: Wyd. Politechniki Świętokrzyskiej w Kielcach (in Polish).
[11] Stradomski, Z. (2001). On the explosive hardening of cast Hadfield steel. Proceedings of a Conference on Advanced Steel Casting Technologies. Kraków. 112-122. (in Polish).
[12] Cullity, B.D. (1964). Basics of X-ray diffraction. Warszawa: PWN. (in Polish).
[13] Bolanowski, K. (2013). The influence of the hardness of the surface layer on the abrasion resistance of Hadfield cast steel. Problemy Eksploatacji. 1, 127-139. (in Polish).
[14] Przybyłowicz, K. (2012). Metal Science. Warszawa: WNT. (in Polish).
[15] El Fawjhry, M.K. (2018). Feasibility of new ladle-treated Hadfield steel for mining purposes. International Journal of Minerals, Metallurgy and Materials. 25(3), 300, https://doi.org/10.1007/s12613-018-1573-z.
[16] Subramanyan, D.K, Swansieger, A.E. and Avery, H.S. (1990). Austenitic manganese steels. In ASM Metals Handbook. Vol. 1, 10th Ed. (p. 822-840). India: American Society of Metals, India.
[17] Zykova, A., Popova, N., Kalashnikov, M. & Kurzina, I. (2017). Fine structure and phase composition of Fe–14Mn–1.2C steel: influence of a modified mixture based on refractory metals. International Journal of Minerals, Metallurgy and Materials. 24(5), 523-529. DOI: 10.1007/s12613-017-1433-2.
[18] Vdovin, K.N., Feoktistov, N.A., Gorlenko, D.A. et al. (2019). Modification of High-Manganese Steel Castings with Titanium Carbonitride. Steel in Translation. 3, 147-151. https://doi.org/10.3103/S0967091219030136.
[19] Issagulov, A.Z., Akhmetov, A.B., Naboko, Ye.P., Kusainova, G.D. & Kuszhanova, A.A. (2016). The research of modification process of steel Hadfield integrated alloy ferroalumisilicocalcium (Fe-Al-Si-Сa/FASC). Metalurgija. 55(3), 333-336.
[20] Haakonsen, F., Solberg, J.K., Klevan, O. & Van der Eijk, C. (2011). Grain refinement of austenitic manganese steels. In AISTech - Iron and Steel Technology Conference Proceedings, 5-6 May 2011 (pp. 763-771). Indianapolis, USA.
[21] El Fawkhry, M.K. (2021). Modified hadfield steel for castings of high and low gouging applications. International Journal of Metalcasting. 15(2), 613-624. https://doi.org/10.1007/s40962-020-00492-5.
[22] EI Fawkhry, M.K., Fathy, A.M. and Eissa, M.M. (2015). New energy saving technology for producing Hadfield steel to high gouging applications. Steel Research International. 86(3), 223-230. https://doi.org/10.1002/srin.201300388.
[23] El-Fawkhry, M.K., Fathy, A.M., Eissa, M. & El-Faramway, H. (2014). Eliminating heat treatment of Hadfield steel in stress abrasion wear applications. International Journal of Metalcasting. 8, 29-36. DOI: 10.1007/BF03355569
[24] Sobula, S., Kraiński, S. (2021). Effect of SiZr modification on the microstructure and properties of high manganese cast steel. Archives of Foundry Engineering. 4, 82-86. ISSN (1897-3310).
[25] Zambrano, O.A., Tressia, G., Souza, R.M. (2020). Failure analysis of a crossing rail made of Hadfield steel after severe plastic deformation induced by wheel-rail interaction. Engineering Failure Analysis. 115, 104621. DOI: doi.org/10.1016/j.engfailanal.2020.104621.
[26] Wróbel, T., Bartocha, D., Jezierski, J., Kalandyk, B., Sobula, S., Tęcza, G., Kostrzewa, K., Feliks E. High-manganese alloy cast steel in applications for cast elements of railway infrastructure. In Współpraca 2023 : XXIX international scientific conference of Polish, Czech and Slovak foundrymen, 26-28 April 2023. Niepołomice.
[27] Młyński, M., Sobula, S., Furgał, G. (2001). Economic aspects of the oxygen-recovery melts of Hadfield cast steel in the Foundry of Metalodlew S.A. Przegląd Odlewnictwa. 51(11), 382-384. (in Polish).
[28] Wróbel, T., Bartocha, D., Jezierski, J., Sobula, S., Kostrzewa K., Feliks E. (2023). High-manganese alloy cast steel used for cast elements of railway infrastructure. Stal, Metale & Nowe Technologie. 1-2, 30-34. (in Polish).

Date

14.02.2024

Type

Article accepted

Identifier

DOI: 10.24425/afe.2024.149246
×