ArticleName |
Study of the effect of graphitized annealing on microstructure of chromium-nickel cast iron |
ArticleAuthorData |
Nosov Magnitogorsk State Technical University (Magnitogorsk, Russia):
K. N. Vdovin, Dr. Eng., Prof., Dept. of Foundry Production and Material Processing, e-mail: kn.vdovin@gmail.com D. A. Gorlenko, Cand. Eng., Senior Lecturer of Dept. of Foundry Production and Material Processing, e-mail: gorldima@yandex.ru N. A. Feoktistov, Cand. Eng., Associate Prof., Head of Dept. of Foundry Production and Material Processing, e-mail: fna87@mail.ru |
Abstract |
The technology of manufacture of dual-layered centrifugally cast rolling rolls includes the process of casting and crystallization of work layer metal and, some time later, of core metal. It supports non-monotonous features of cooling of work layer metal that is subjected to the secondary heating and holding at high temperature, or to annealing. At the same time graphite is extracted in cast iron structure of work layer; its amount can be varied both by holding time and by alloying. Free carbon can be extracted by dissolution of carbide phase and by depletion of solid solution, what should effect on quantitative parameters of microstructure of mottled cast iron and its mechanical properties. Revealing of regularity of forming the structure of mottled cast iron after its graphitized annealing depending on holding time is the aim of this study. Experimental cast samples were subjected to annealing in the protected medium at 900 °C during 30–330 min. Regularities of forming the microstructure were examined using optical metallography. Examination of experimental samples was resulted in obtaining of relationships between graphite amount, carbide phase and residual austenite (from one side) and time of graphitized annealing (from other side). Graphite amount increases up to certain holding time, and then additional extraction in the structure was not observed. On the contrary, carbide phase amount is essentially decreased at the same time up to certain holding time, and then its amount leaves practically the same. Joint analysis of obtained relationships displays that graphite is partially extracted owing to dissolution of carbide phase, while quantitative relationship itself is characterized by power features based on the fact that graphite is also extracted due to carbon that is dissolved in metal base austenite. Alloying composition of austenite has effect on its resistance to decomposition during overcooling, thereby graphite amount in the structure of mottled chromium-nickel cast iron is considered as the main regulator of quantitative phase relationship in metallic base and of microhardness of samples in general. |
References |
1. Álvarez Antolín J. F., Asensio Lozano J., Álvarez Pérez C. H. Identification of Metallurgical Manufacturing Factors with a Significant Effect on the Flexural Strength of Mottled Ni-Hard Cast Irons Through a Design of Experiments Approach. International Journal of Metalcasting. 2017. Vol. 11. Issue 3. pp. 467–474. DOI: 10.1007/s40962-016-0087-6. 2. Gelfi M., Pola A., Girelli L., Zacco A., Masotti M., La Vecchia G. M. Effect of heat treatment on microstructure and erosion resistance of white cast irons for slurry pumping applications. Wear. 2019. Vol. 428–429. Pp. 438–448. DOI: 10.1016/j.wear.2019.03.011. 3. Terelj M., Fajfar P., Godec M., Kugler G. Characteristics of the thermal fatigue resistance for 3.1C, 0.8Si, 0.9Mn, 1.7Cr, 4.5Ni and 0.3Mo ICDP cast iron roll at 600 °C. Materiali in tehnologije / Materials and technology. 2017. Vol. 51. Issue 3, pp. 515–521. DOI: 10.17222/mit.2016.259. 4. Kruger J., von Schweinichen P., Mayr A., Mehlau S., Kaiser R. Modern technologies of work roll production for flat rolling. Chernye metally. 2017. No. 7. pp. 31–35. 5. Brander M., Elizondo L., Trickl T., Paar A., Hardt S. Optimization of rolls for hot rolling mills providing better efficiency. Chernye metally. 2017. No. 7. pp. 24-30. 6. Zybill Ch., Goryany V., Buch J., Myronova O., Römschied M. Examination of innovated graphitized materials used for work rolls in hot strip mills. Chernye metally. 2016. No. 5. pp. 47–50. 7. Vdovin K. N., Gorlenko D. A., Kuryaev D. V., Feoktistov N. A. Study of the effect of isothermal holding on parameters of graphite phase in indefinite chromium-nickel cast iron alloyed by nitrogen and vanadium. CIS Iron and Steel Review. 2019. Vol. 17, pp. 30–33. DOI: 10.17580/cisisr.2019.01.05. 8. Asensio-Lozano J., Álvarez-Antolín J. F., González-Pociño A., Del Río-López B. Optimization of Graphite Morphology in Mottled Nihard Cast Irons Inoculated with Feb and Manufactured by Centrifugal Casting. Metals. 2018. No. 8, p. 293. DOI: 10.3390/met8050293. 9. Gimaletdinov R. Kh., Gulakov A. A., Tukhvatulin I. Kh. Influence of chemical composition on the properties of work layer of centrifugally cast indefinite rolling rolls. Vestnik Magnitogorskogo gosudarstvennogo tekhnicheskogo universiteta im. G. I. Nosova. 2016. Vol. 14. No. 3. pp. 78–89. 10. Kanga Minwoo, Suhb Yongchan, Yong-Jun Ohc, Young-Kook Leea. The effects of vanadium on the microstructure and wear resistance of centrifugally cast Ni-hard rolls. Journal of Alloys and Compounds. 2014. Vol. 609. pp. 25–32. 11. Vdovin K. N., Gorlenko D. A., Zavalischin A. N. Structure changes of chromium-nickel indefinite cast irons in heating. Vestnik Magnitogorskogo gosudarstvennogo tekhnicheskogo universiteta im. G. I. Nosova. 2013. Vol. 45. No. 5. pp. 9–11. 12. Vdovin K. N., Gorlenko D. A., Zavalischin A. N. Influence of industrial tempering on the composition of complex cast iron. Steel in Translation. 2013. Vol. 43. pp. 288–290. 13. Sun Ting, Song Ren-bo, Wang Xu, Deng Peng, Wu Gjing Chun. Abrasive Wear Behavior and Mechanism of High Chromium Cast Iron. Journal of iron and steel research, international. 2015. Vol. 22(1), pp. 84–90. 14. Kusumotoa K., Shimizua K., Efremenkov V. G., Harac H., Shiraid M., Ito J., Hatatee M., Gaqi Y., Hendra Purba R. Three body type abrasive wear characteristics of multi-component white cast irons. Wear. 2019. No. 426–427. pp. 122–127. DOI: 10.1016/j.wear.2019.01.108. 12. Lecomte-Beckers J., Terziev L., Breier J.-P. Operating properties of rolling rolls made of graphite chromium cast iron. Stal. 2000. No. 1. pp. 46–50. 13. Kuskov Yu. M. Influence of graphite inclusions on service life of cast and deposited weld rolls for hot rolling. Stal. 2006. No. 2. pp. 41–45. 17. Al-Rubaiea Kassim S., Pohlb M. Heat treatment and twobody abrasion of Ni-Hard 4. Wear. 2014. Vol. 312. pp. 21–28. |