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Abstrakty
The paper presents the results of abrasive wear resistance tests carried out on high-vanadium cast iron with spheroidal VC carbides. The cast iron of eutectic composition was subjected to spheroidising treatment using magnesium master alloy. The tribological properties were examined for the base cast iron (W), for the cast iron subjected to spheroidising treatment (S) and for the abrasion-resistant steel (SH). Studies have shown that high-vanadium cast iron with both eutectic carbides and spheroidal carbides has the abrasion resistance twice as high as the abrasion-resistant cast steel. The spheroidisation of VC carbides did not change the abrasion resistance compared to the base high-vanadium grade.
Czasopismo
Rocznik
Tom
Strony
221--226
Opis fizyczny
Bibliogr. 13 poz., rys., tab., wykr.
Twórcy
autor
autor
- University of Science and Technology, Reymonta 23, 30-059 Kraków, Polska, kawalec@agh.edu.pl
Bibliografia
- [1] Fraś E., Guzik E. (1980). Primary microstructure of the Fe-C-V alloys. Archives of Metallurgy. 25 (4), 757-772.
- [2] Fraś E. (2003). Crystallization of metals. Warsaw: WNT. (in Polish).
- [3] Kopyciński D., Piasny S. (2012). Influence of tungsten and titanium on the structure of chromium cast iron. Archives of Foundry Engineering. 12 (1), 57-60.
- [4] Kawalec M., Fraś E. (2008). Structure, Mechanical Properties and Wear Resistance of Highvanadium Cast Iron. ISIJ International. 48 (4), 518-524.
- [5] Fraś E., Kawalec M. (2008). Structure, mechanical properties and abrasive wear resistance of Fe-C-V alloys, Materials Engineering. 29 (2), 78-85 (in Polish).
- [6] Kopyciński D. (2009). Inoculation of chromium white cast iron. Archives of Foundry Engineering. 9, 191-194.
- [7] Kopyciński D., Guzik E., Piasny S. (2011). The structure of abrasion-resisting castings made of chromium cast iron. Archives of Foundry Engineering. 11, 61-66.
- [8] Uematsu Y., Tokaji K., Horie T., Nishigaki K. (2007). Fracture toughness and fatigue crack propagation in cast irons with spheroidal vanadium carbides dispersed within martensitic matrix microstructure. Materials Science and Technology A. 471, 15-21.
- [9] Tokaji K., Horie T., Enomoto Y. (2006). Effect of microstructure and carbide spheroidization on fatigue behaviour in high V-Cr-Ni cast irons. International Journal of Fatigue. 28, 281-288.
- [10] Tanaka M., Shimizu K., Ito D., Noguchi T. (2011). Fatigue Characteristic of Spheroidal Vanadium Carbides Cast Iron. Key Engineering Materials. 457, 279-284.
- [11] Nishiuchi S., Yamamoto S., Tanabe T., Kitsudo T., Matsumoto H., Kawano Y. (2003). Development of Stainless Spheroidal Carbide (VC) Cast Iron. Transaction of the American Foundry Society. 831-844.
- [12] Guzik E. (2001). The processes of transforming cast iron - chosen questions. Archives of Foundry. (in Polish).
- [13] Kawalec M. (2011). The spheroidisation of VC carbides in high-vanadium cast iron, Archives of Foundry Engineering, 11 (SI3/2011), 11-116.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPZ7-0005-0065