Influence of deformation on electrochemical properties of Q235 steel

1. M. K. Singh, A. Kumar, Environmental corrosion studies of cold rolled Austenitic stainless steel, Inter. J. of Adv. Eng. Tech.2012, 3 (1), 75-79.Search in Google Scholar

2. P. Jacques, F. Lefebvre, C. Lemaignan, Deformation corrosion interactions for Zr alloys during, I-SCC crack initiation Part I: Chemical contributions, J. of Nuclear Mater.1999, 264, 239-248.Search in Google Scholar

3. P. Jacques, F. Lefebvre, C. Lemaignan, Deformation corrosion interactions for Zr alloys during I-SCC crack initiation: Part II: Localised stress and strain contributions, J. of Nuclear Mater.1999, 264, 249-256.Search in Google Scholar

4. V. A. C. Haanappel, M. F. Stroosnijder, Influence of mechanical deformation on the corrosion behavior of AISI 304 stainless steel obtained from cooking utensils, Corrosion2001, 57 (6), 557-565.10.5006/1.3290382Search in Google Scholar

5. B. Mazza, P. Pedeferri, D. Sinigaglia, A. Cigada, L. Lazzari, G. Re, D. Wenged, Relationship between the electrochemical and corrosion behavior and the structure of stainless steels subjected to cold plastic deformation, Electrochem. Soc.: Electrochemical Science & Technology1976, 123, 1157–1163.10.1149/1.2133026Search in Google Scholar

6. M. Rifai, H. Miyamoto, H. Fujiwara, The effect of ECAP deformation route on microstructure, mechanical and electrochemical properties of low CN Fe-20%Cr alloy, Materials Sciences and Applications2014, 5, 568-578.10.4236/msa.2014.58059Search in Google Scholar

7. M. Zhu, C. Du, X. Li, Z. Liu, W. Yao, L. Huang, Corrosion behavior of Q235 steel in Beijing soil environment, J. of Chinese Society for Corrosion and Protection2013, 33 (3), 199-204.Search in Google Scholar

8. J. Xiao and C. Cao, Principle of material corrosion, Beijing, Chemical Industry Press, 2002.Search in Google Scholar

9. F. M. Queiroz, I. Costa, Electrochemical, chemical and morphological characterization of galvannealed steel coating, Surface and Coatings Technology2007, 201, 7024–7035.10.1016/j.surfcoat.2007.01.005Search in Google Scholar

10. S.T. Vagge, V.S. Raja, R. Ganesh Narayanan, Effect of deformation on the electrochemical behavior of hot-dip galvanized steel sheets, Applied Surface Science2007, 253, 8415–8421. 010.1016/j.apsusc.2007.04.045Search in Google Scholar

11. V.S. Raja, C.K. Panday, V.S. Saji, S.T. Vagge, K. Narasimhan, An electrochemical study on deformed galvanneal steel sheets, Surface and Coatings Technology2006, 201, 2296–2302.10.1016/j.surfcoat.2006.03.044Search in Google Scholar

12. D. Guo, X. Yuan, B. Gu, et al, Influence of deformation of galvanized alloyed steel on corrosion resistance, Materials and Heat Treatment2013, 34 (8), 153-157.Search in Google Scholar

13. Q. Xue, M. Zheng, L. Han, Effect of passive film potential on electrochemical properties of oil casing P110 steel, Corrosion Science and Protection Technology2013, 25 (2), 152-155.Search in Google Scholar

14. Y. Sürme & A. Ali Gürten, Role of polyethylene glycol tertoctylphenyl ether on corrosion behaviour of mild steel in acidic solution, Corrosion Engineering, Science and Technology2009, 44 (4), 304-311.10.1179/174327808X303464Search in Google Scholar