Numerical modeling and experimental validation of microstructure in gray cast iron

Masoud Jabbari; Parviz Davami; Naser Varahram

doi:10.1007/s12613-012-0646-7

International Journal of Minerals, Metallurgy, and Materials ›› 2012, Vol. 19 ›› Issue (10) : 908 -914. DOI: 10.1007/s12613-012-0646-7

Article

Numerical modeling and experimental validation of microstructure in gray cast iron

Author information +

History +

PDF

Abstract

To predict the amount of different phases in gray cast iron by a finite difference model (FDM) on the basis of cooling rate (R), the volume fractions of total γ phase, graphite, and cementite were calculated. The results of phase composition were evaluated to find a proper correlation with cooling rate. More trials were carried out to find a good correlation between the hardness and phase composition. New proposed formulas show that the hardness of gray cast iron decreases as the amount of graphite phase increases, and increases as the amount of cementite increases. These formulas are developed to correlate the phase volume fraction to hardness. The results are compared with experimental data and show reasonable agreement.

Keywords

cast iron / cooling / microstructure / mechanical properties / finite difference method

Cite this article

Download citation ▾

Masoud Jabbari, Parviz Davami, Naser Varahram. Numerical modeling and experimental validation of microstructure in gray cast iron. International Journal of Minerals, Metallurgy, and Materials, 2012, 19(10): 908-914 DOI:10.1007/s12613-012-0646-7

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Stefanescu D.M. Solidification and modeling of cast iron: a short history of the defining moments. Mater. Sci. Eng. A, 2005, 413–414, 322.

[2]	Gafur M.A., Haque M.N., Prabhu K.N. Effect of chill thickness and superheat on casting/chill interfacial heat transfer during solidification of commercially pure aluminium. J. Mater. Process. Technol., 2003, 133, 257

[3]	Collini L., Nicoletto G., Konečná R. Microstructure and mechanical properties of pearlitic gray cast iron. Mater. Sci. Eng. A, 2008, 488, 529

[4]	Davis J.R. Cast iron. ASM Specialty Handbook: Cast Irons, 1996, Materials Park, Ohio, ASM International, 356.

[5]	Mills K. Voort G.V. Metallography and microstructure. ASM Handbook Volume 09: Metallography and Microstructures, 1985, Materials Park, Ohio, ASM International, 294.

[6]	Vijayaram T.R., Sulaiman S., Hamouda A.M.S., Ahmad M.H.M. Numerical simulation of casting solidification in permanent metallic molds. J. Mater. Process. Technol., 2006, 178, 29

[7]	LI B.Q., Anyalebechi P.N. A micro/macro model for fluid flow evolution and microstructure formation in solidification processes. Int. J. Heat Mass Transfer, 1995, 38, 2367

[8]	Shayesteh-Zeraati A., Naser-Zoshki H., Kiani-Rashid A.R. Microstructural and mechanical properties (hardness) investigations of Al-alloyed ductile cast iron. J. Alloys Compd., 2010, 500, 129

[9]	Venkataramani R., Simpson R., Ravindran C. Microstructural modeling of solidification in A356 alloy. Mater. Charact., 1995, 35, 175

[10]	Su K.C., Ohnaka I., Yamauchhi I., Fukusako T. Fredriksson H., Hillert M. Modeling of solidified structure of castings. The Physical Metallurgy of Cast Iron, 1985, Amsterdam, Elsevier, 181.

[11]	Flemings M.C. Solidification processing. Metall. Trans., 1974, 5, 2121

[12]	H. Fredriksson and M. Hillert, The physical metallurgy of cast iron, [in] Proceedings of the Third International Symposium on the Physical Metallurgy of Cast Iron, Stockholm, Sweden, 1984, p.273.

[13]	H. Tian and D.M. Stefanescu, Modeling of casting, welding and advanced solidification processes VI, [in] Proceedings of the 6th Conference in a Series on Modeling, Casting, and Welding Processes, Florida, USA, 1993, p.639.

[14]	Goodrich G.M., Shaw W.F. New formula equates tensile strength of gray iron. Mod. Cast, 1992, 10, 219.

[15]	Schneidewind R., McElwee R.G. Composition and properties of gray iron: Part I and II. AFS Trans., 1950, 58, 312.

[16]	Serrallach J., Lacaze J., Sertucha J., Suárez R., Monzón A. Effect of selected alloying elements on mechanical properties of pearlitic nodular cast irons. Key Eng. Mater., 2011, 457, 361

[17]	Jabbari Behnam M.M., Davami P., Varahram N. Effect of cooling rate on microstructure and mechanical properties of gray cast iron. Mater. Sci. Eng. A, 2010, 528, 583