The Effect of Heat Treatment of Gray and Nodular Cast Iron with Ferrite Matrix on Mechanical Properties and Corrosion Rate Compared with Medium Carbon Steel

Mohamed A. Gebril; M.S. Aldlemey; Farag I. Haider

doi:10.4028/www.scientific.net/AMR.936.1158

Paper Titles

A Study of the Corrosion Resistance of M50NiL Bearing Steel by Ion Implantation
p.1132

Microstructure Evolution Characterization of Multi-Pass Hot Rolling Simulation of Nb-Ti Microalloyed Steel
p.1141

Grade E550 Heavy Steel Plate by TMCP for Offshore Energy Exploration
p.1146

Preparation of Crystalline Hematite from Bauxite
p.1153

The Effect of Heat Treatment of Gray and Nodular Cast Iron with Ferrite Matrix on Mechanical Properties and Corrosion Rate Compared with Medium Carbon Steel
p.1158

Microstructure and Tensile Behavior of Ti-Rich Ti-Ni-Cu Melt-Spun Ribbon
p.1163

The Oxide Defect of C70250 Alloy
p.1168

A Study on Austenite Catalytic Cryogenic Treatment of Cr-W-Mo-V High Alloy Medium-Upper Carbon Steel
p.1173

Effect of Forging Process on V-Nb-Ti Microalloyed Non-Quenched and Tempered Steels
p.1179

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 936The Effect of Heat Treatment of Gray and Nodular...

The Effect of Heat Treatment of Gray and Nodular Cast Iron with Ferrite Matrix on Mechanical Properties and Corrosion Rate Compared with Medium Carbon Steel

Abstract:

In this work, the influence of heat treatment process and quenching in different quenchant media of medium carbon steel, gray and nodular cast iron with ferrite matrix on the hardness, ductility and corrosion rate of has been investigated. During this type of operations, the specimens were Austenizing at 900°C for one hour. Therefore, the specimens were quenched in different kind of oil as quenched medium (oil 20-50, oil 40, oil 90, and water as reference). The hardness , impact energy to measure the ductility, corrosion rate and microstructures were studied. From result of steel 0.47% carbon was clear increasing in hardness and decreasing in ductility with close varying values in oil quenchant kind comparing with as received specimen and water quenched one, corrosion rate decreased with heat treatment and quenching process due to formation of single face instead of double phase before heat treatment process which created galvanic cell. For gray and nodular cast iron it is noticeable that no changing in microstructure within heating for one hour at 900°C because the matrix in both cast iron types is ferrite, therefore no changing in mechanical properties under heat treatment process with time of one hour which is not sufficient to decomposition of graphite, but with comparison the hardness of gray cast iron is more than nodular one due to distribution of graphite flacks which increase the hardness and decrease the ductility as well as increasesing the corrosion rate compared with nodular cast iron. Microstructure of both types of cast iron have been studied after subjected the specimens to heat treatment at 1000°C and for 10 hours, the microstructures shown clear diffusion of some carbon in ferrite matrix around the graphite phase and under quenched some of martensite formed.

You might also be interested in these eBooks

Materials Science and Engineering Technology

View Preview

Info:

Periodical:

Advanced Materials Research (Volume 936)

Pages:

1158-1162

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.936.1158

Citation:

Cite this paper

Online since:

June 2014

Authors:

Mohamed A. Gebril*, M.S. Aldlemey, Farag I. Haider

Keywords:

Corrosion Rate, Dissolution of Graphite, Gray Cast Iron, Heat Treatment, Nodular Cast Iron

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Smith WF and Hashemi J. Foundations of Materials Science and Engineering. 4th ed. Boston: McGraw - Hill Book; 2006. pp.28-36.

Google Scholar

[2] Ashby MF and Jones DRH. Engineering Material 2: An Introduction to Microstructure, Processing and Design. London: Elsevier Science Ltd; 1994. 352 p.

Google Scholar

[3] Morrogh, H. (1948): Anew Engineering Materials Production of Nodular Graphite Structures in grey cast irons. AASM pp.72-90.

Google Scholar

[4] Larry Olson (2001): Proper Quenching Option yields Heat Treating Results. pp.1-5.

Google Scholar

[5] Rajan T. V. and C. P. Sharma (1988): Heat Treatment, Principles and Techniques. Prentice- Hall of New Delhi-India. pp.143-150, 236-380.

Google Scholar

[6] Gulyaev A. (1980): Physical Metallurgy. Vol 1, Mir Pubilshers Moscow. pp.154-198.

Google Scholar

[7] Higgins R.A. (1995): Engineering Metallurgy. Edward Arnold UK, pp.218-257, 285-354.

Google Scholar