Effect of high-manganese cast steel strain hardening on the abrasion wear resistance in a mixture of SiC and water

• Autorzy: Kalandyk B. , Zapała R.
• Języki publikacji: EN

Abstrakty

EN

The study attempts to determine the impact of the high-manganese cast steel strain hardening on its abrasion wear resistance in a mixture of SiC and water prepared in accordance with ASTM G75. For tests, the high-manganese cast steel containing 10.7, 17.9 and 20.02% Mn was selected. The results of microstructure examinations and abrasion wear resistance tests carried out on the material in non-hardened condition and after strain hardening with a force of 539.55kN were disclosed. Additionally, the surface of samples after a 16-hour cycle of abrasion tests was examined. Moreover, based on the obtained results, the effect of different contents of Mn in cast steel was studied, mainly in terms of its impact on the abrasion wear resistance. The results obtained on the tested materials were compared with the results obtained on the low-alloyed abrasion wear-resistant cast steel L35GSM.

Słowa kluczowe

EN

austenite; high-manganese steel; microstructure; abrasive wear resistance; Miller slurry machine test

PL

austenit; stal wysokomanganowa; mikrostruktura; odporność na zużycie ścierne; test Millera

• Wydawca: Komisja Odlewnictwa Polskiej Akademii Nauk Oddział w Katowicach
• Czasopismo: Archives of Foundry Engineering
• Rocznik: 2013
• Tom: Vol. 13, iss. 4
• Strony: 63--66
• Opis fizyczny: Bibliogr. 11 poz., rys., tab., wykr.

Twórcy

autor

Kalandyk B.

• Department of Cast Alloys and Composites Engineering, Faculty of Foundry Engineering, AGH University of Science and Technology, 23 Reymonta Str., 30-059 Kraków, Polska

autor

Zapała R.

• Department of Cast Alloys and Composites Engineering, Faculty of Foundry Engineering, AGH University of Science and Technology, 23 Reymonta Str., 30-059 Kraków, Polska

Bibliografia

• [1] PN-EN 1034: (2010). Castings from steel – castings from high austenitic manganese steel.
• [2] Głownia, J., Tęcza, G., Sobula, S., Rąpała, M. & Stańczak S. (2008). Effects of the Hadfield steel quenching in polymers solutions. Foundry Journal of the Polish Foundrymen’s Association. 7-8, 378-382.
• [3] Kniaginin, G. (1968). Austenitic manganese cast steel. Kraków: PWN.
• [4] Stradomski, Z. (2000). Microstructural aspects of explosion strengthening of Hadfield cast steel. Ed. Częstochowa: University of Technology, Częstochowa.
• [5] Krawiarz, J. & Magalas, L. (2005). Modified Hadfield cast steel with an improved abrasion resistance. Foundry Journal of the Polish Foundrymen’s Association. 10, 666-672.
• [6] Berns, H. (1977). Einfluß von Korngröße und Korngrenzencarbid auf die mechanischen Eigenschaften von Manganhartstahlguß. Giesserei. 64(12), 323-328.
• [7] Berns, H. & Fischer, A. (1987). New Abrasion Resistant Alloys, Proc. Intern. Conf. on Tribologie, Friction, Lubrication & Wear, - 50 Years On, The Inst. of Mechanical Engineers, London, England, 603-608.
• [8] Ludema, K.C. (Ed). (1985). Wear of Materials. New York: ASME.
• [9] PN-H/83156: (1997) Constructional Alloy Cast Steel – Grades.
• [10] Hofer, S., Harti, M., Schestak, G., Schneider, R., Arenholz, E. & Samek, L. (2011). Comparison of Austenite High Mn-Steels with Different Mn and C Contents Regarding their Processing Properties. BHM. 156(3), 99-104.
• [11] Januś, T. (2013). Abrasion resistance of L35GSM cast steel. BSc-thesis. Kraków: AGH-University of Science and Technology.