Details
Title
Initial Analysis of the Surface Layer of AVGI Cast Iron Subject to AbrasionJournal title
Archives of Foundry EngineeringYearbook
2022Volume
vol. 22Issue
No 2Authors
Affiliation
Jakubus, A. : The Jacob of Paradies University in Gorzów Wielkopolski, ul. Teatralna 25, 66-400 Gorzów Wielkopolski, PolandKeywords
Vermicular cast iron ; Abrasion resistance ; Austempering ; Abrasion of cast iron ; AVGIDivisions of PAS
Nauki TechniczneCoverage
50-56Publisher
The Katowice Branch of the Polish Academy of SciencesBibliography
[1] Hebda, M., Wachal, A. (1980). Tribology. Warsaw: Ed. Scientific and Technical Publishers.[2] Hebda, M. (2007). Processes of friction, lubrication and wear of machines. Warsaw – Radom: Ed. Institute of Sustainable Technologies - PIB.
[3] Podrzucki, C. (1991). Cast iron. Structure, properties, application. vol. 1 and 2. Krakow: Ed. ZG STOP. (in Polish).
[4] Kopyciński, D., Kawalec, M., et al. (2013). Analysis of the structure and abrasive wear resistance of white cast iron with precipitates of carbides. Archives of Metallurgy and Materials. 58(3), 973-976.
[5] Szajnar, J., Walasek, A. & Baron, C. (2013). Tribological and corrosive properties of the parts of machines with surface alloy layer. Archives of Metallurgy and Materials. 58(3), 931-936.
[6] Kovac, P., Jesic, D., Sovilj-Nikic, S., et al. (2018). Energy aspects of tribological behaviour of nodular cast iron. Journal of Environmental Protection and Ecology. 19(1), 163-172.
[7] Cabanne, P., Forrest, R., Roedter, H. (2006). Sorelmetal about nodular cast iron. Warsaw: Metals & Minerals Ltd.
[8] Gumienny, G. (2013). Effect of carbides and matrix type on wear resistance of nodular cast iron. Archives of Foundry Engineering. 13(3), 25-29.
[9] Jeyaprakash, N., Sivasankaran, S., Prabu G., Yang, Che-Hua, & Alaboodi Abdulaziz S. (2019). Enhancing the tribological properties of nodular cast iron using multi wall carbon nano-tubes (MWCNTs) as lubricant additives. Materials Research Express. 6(4). DOI: https://doi.org/10.1088/2053-1591/aafce9
[10] Wojciechowski A., Sobczak J. (2001) Composite brake discs for road vehicles. Warsaw: Motor Transport Institute.
[11] Guzik, E. (2001). Cast iron refining processes. Selected Issues. Archive of Foundry. Monograph No. 1M, 2001. Ed. PAN.
[12] Duenas, J.R., Hormaza, W. & CastroGüiza, G.M. (2019). Abrasion resistance and toughness of a ductile ironproduced by two molding processes with a shortaustempering. Journal of Materials Research and Technology. 8(3), 2605-2612.
[13] Han, J.M., Zou, Q., Barber, G.C. & et al. (2012). Study of the effects of austempering temperature and time on scuffing behavior of austempered Ni–Mo–Cu ductile iron. Wear. 290-291, 99-105
[14] Du, Y., Gao, X., Wang, X. & et al. (2020). Tribological behavior of austempered ductile iron (ADI) obtained at different austempering temperatures. Wear. 456-457(203396), 1-12. DOI: 10.1016/j.wear.2020.203396
[15] Kochański, A., Krzyńska, A., Chmielewski, T. & Stoliński, A. (2015). Comparison of austempered ductile iron and manganese steel wearability. Archives of Foundry Engineering. 15(spec.1), 51-54.
[16] Myszka, D. (2005). Microstructure and surface properties of ADI cast iron. Archives of Foundry. 5(15), 278-283.
[17] Kumari, R., Rao, P. (2009). Study od’s wear behaviour of austempered ductile iron. Journal of Materials Research. 44, 1082-1093.
[18] Medyński, D. & Janus, A. (2018). Abrasive – wear resistance of austenitic cast iron. Archives of Foundry Engineering. 18(3), 43-48.
[19] Pytel, A. & Gazda, A. (2014). Evaluation of selected properties in austempered vermicular cast iron (AVCI). Works of the Foundry Research Institute. LIV(4), 23-31.
[20] Panneerselvama, S., Martis, C.J., Putatunda, S. K. & Boileau, J. M. (2015). An investigation on the stability of austenite in Austempered Ductile Cast Iron (ADI). Materials Science and Engineering: A. 625, 237-246.
[21] Kim, Y., Shin, H., Park, H. & Lim, J. (2008). Investigation into mechanical properties of austempered ductile cast iron (ADI) in accordance with austempering temperaturę. Materials Letters. 62(3), 357-360.
[22] Krzyńska, A. (2013). Searching for better properties of ADI. Archives of Foundry Engineering. 13(spec.1), 91-96.
[23] Krzyńska, A. & Kochański, A. (2014). Austenitization of Ferritic Ductil Iron. Archives of Foundry Engineering. 14(4), 49-54.
[24] Wilk-Kołodziejczyk, D., Mrzygłód, B., Regulski, K. & et al. (2016). Influence of process parameters on the properties of austempered ductile iron (ADI) examined with the use of data mining methods. Metalurgija. 55(4), 849-851.
[25] Khalaj, G., Pouraliakbary, H., Mamaghaniz, K. R. & et al. (2013). Modeling the correlation between heat treatment, chemical composition and bainite fraction of pipeline steels by means of artifcial neural networks. Neural Network World. 23, 351-367.
[26] Kiahosseini, S. R., Baygi, S., J., M., Khalaj, G. & et al. (2017). a study on structural, corrosion, and sensitization behavior of ultrafine and coarse grain 316 stainless steel processed by multiaxial forging and heat treatment. Journal of Materials Engineering and Performance. 27, 271-281.
[27] Polish Standard PN-EN 1563, Founding. Spheroidal graphite cast iron, (2000).
[28] Polish Standard PN-EN ISO 945-1: Microstructure of cast irons. Part 1. Graphite classification by visual analysis. November 2009. Correction PN-EN ISO 945-1:2009/AC. April 2010.
[29] Polish Standard PN-75/H-04661: Grey cast iron, nodular cast iron and malleable. Metallographic examinations. Determining of microstructure.
[30] Soiński, M.S., Jakubus, A. (2014). Initial assessment of abrasive wear resistance of austempered cast iron with vermicular graphite. Archives of Metallurgy and Materials. 59(3), 1073-1076.
[31] Kaczorowski, M. (2001). Structure and mechanical properties of ADI cast iron. Archive of Foundry. 1(1/2), 149-158.
[32] Myszka, D., Kaczorowski, M., Tybulczuk, J. & Kowalski, A. (2004). Parameters of the ADI cast iron production process and its mechanical properties. Archive of Foundry. 4(11), 355-364.
[33] Binczyk F., Gradoń P. (2010). Influence of heat treatment parameters on the formation of ADI cast iron microstructure. The work of IMŻ. 4, 5-14.
[34] Pietrowski, S. (1997). Ductile iron with the structure of bainitic ferrite with austenite or bainitic ferrite. Archives of Materials Science. 18, 253-273.
[35] Borowski, A.W. (1998). Synthetic ductile iron quenched with isothermal transformation (ADI). XXIII Scientific and Technical Symposium of the Foundry Engineering ITMat. Warsaw University of Technology, pp. 29.
[36] Wróbel, J. (2013). Cast iron thermal fatigue resistance ADI. Crakow: PhD thesis. AGH.
[37] Mierzwa, P. (2010). The effect of thermal treatment on the selected properties of cast iron with vermicular graphite. Doctoral thesis. Czestochowa University of Technology.
[38] Institute of Sustainable Technologies. User manual. Tribology set T-01M, mandrel-disc type. State Research Institute. Radom 2010.
[39] makland.com.pl. 28.02.2016, time 13.25.