Effect of Retained Austenite Stability in Corrosion Mechanism of Dual Phase High Carbon Steel
 A. Calik, A. Duzgun, O. Sahin and N. Ucar. Effect of Carbon Content on the Mechanical Properties of Medium Carbon Steels. Zeitschrift für Naturforschung A, 65(5), 2010, pp. 468-472.
 Y. Ma, Y. Li and F. Wang. Corrosion of low carbon steel in atmospheric environments of different chloride content. Corrosion Science, 51(5), 2009, pp.997-1006.
 A. Kadhum, A. Mohamad, L. Hammed, A. Al-Amiery, N. San and A. Musa. Inhibition of Mild Steel Corrosion in Hydrochloric Acid Solution by New Coumarin. Materials, 7(6), 2014, pp.4335-4348.
 Y. L. Shuaib-Babata and B. L. Abdulqadir. Corrosion Behaviours of Commercial Low Carbon Steel in Petroleum Environment. SEEM Journal Research & Development, 1(1), 2012, pp. 18-29.
 J. Davis. Properties and Selection: Irons, Steels and High-Performance Alloys. Materials Park, OH: ASM International, 2007.
 M. Fong-Yuan. Corrosive Effects of Chlorides on Metals, Pitting Corrosion, Prof. Nasr Bensalah (Ed.). INTECH Open Access Publisher, 2012.
 C. Chen, M. Lu, D. Sun, Z. Zhang and W. Chang. Effect of Chromium on the Pitting Resistance of Oil Tube Steel in a Carbon Dioxide Corrosion System. CORROSION, 61(6), 2005, pp.594-601.
 R. Hossain, F. Pahlevani, M. Quadir and V. Sahajwalla. Stability of retained austenite in high carbon steel under compressive stress: an investigation from macro to nano scale. Scientific Reports, 6(1), 2016.
 ASTM International. Chapter 6: Austenitic Stainless Steel. Stainless Steels for Design Engineers, 2008, pp. 69-78.
 O. Olivares-Xometl, N.V. Likhanova, M.A. Dominguez-Aguilar, J.M. Hallen, L.S. Zamudio, E. Arce, Surface analysis of inhibitor films formed by imidazolines and amides on mild steel in an acidic environment, Applied Surface Science 252 (6), 2006, pp. 2139–2152.
 L. Xu, K. Chan, H.H.P. Fang, Application of atomic force microscopy in the study of microbiologically influenced corrosion, Materials Characterization. 48 (2–3), 2002, pp. 195–203.
 R. Wang, An AFM and XPS study of corrosion caused by micro-liquid of dilute sulfuric acid on stainless steel, Applied Surface Science. 227 (1–4), 2004, pp. 399– 409.
 T. Remmerswaal. “The influence of microstructure on the corrosion behaviour of ferritic-martensitic steel: 3.2 Influence of prior austenite grain size on corrosion properties”. Delft University of Technology, 2015, pp. 57-62.
 S. Trivedi, Y. Mehta, K. Chandra and P. S. Mishra. Effect of Chromium on Mechanical Properties of Powder-Processed Fe-0.35wt% P Alloys. Journal of Minerals & Materials Characterization & Engineering, 8 (8), 2009, pp. 611-620.
 N. Poolthong, H. Nomura and M. Takita. Effect of Heat Treatment on Microstructure and Properties of Semi-solid Chromium Cast Iron. Materials Transactions, 45(3), 2004, pp.880-887.
 H. Jirková, L. Kučerová and B. Mašek. The Effect of Chromium on Microstructure Development during Q-P Process. Materials Today: Proceedings, 2, 2015, pp.S627-S630.