M. Yamashita, H. Miyuki, Y. Matsuda, H. Nagano, and T. Misawa, The long term growth of the protective rust layer formed on weathering steel by atmospheric corrosion during a quarter of a century, Corros. Sci., 36(1994), No.2, p.283.
T. Kamimura and M. Stratmann, The influence of chromium on the atmospheric corrosion of steel, Corros. Sci., 43(2001), No.3, p.429.
M. Stratmann, K. Bohnenkamp, and T. Ramchandran, The influence of copper upon the atmospheric corrosion, Corros. Sci., 27(1987), No.9, p.905.
T.O. Nishimura, H. Katayama, K. Noda, and T. Kodama, Effect of Co and Ni on the corrosion behavior of low alloy steels in wet/dry environments, Corros. Sci., 42(2000), No.9, p.1611.
Q.C. Zhang, J.S. Wu, J.J. Wang, et al., Corrosion behavior of weathering steel in marine atmosphere, Mater. Chem. Phys., 77(2002), No.2, p.603.
X.H. Chen, J.H. Dong, E.H. Han, and W. Ke, Effect of Ni on the ion-selectivity of rust layer on low alloy steel, Mater. Lett., 61(2007), No.19, p.4050.
M. Itagaki, R. Nozue, K. Watanabe, et al., Electrochemical impedance of thin rust film of low-alloy steels, Corros. Sci., 46(2004), No.5, p.1301.
A.V.R. Kumar and R. Balasubramaniam, Corrosion product analysis of corrosion resistant ancient Indian iron, Corros. Sci., 40(1998), No.7, p.1169.
R. Balasubramaniam, On the corrosion resistance of the Delhi iron pillar, Corros. Sci., 42(2000), No.11, p.2103.
G. Sahoo and R. Balasubramaniam, On the corrosion behaviour of phosphoric irons in simulated concrete pore solution, Corros. Sci., 50(2008), No.1, p.131.
A. Nishikata, F. Suzuki, and T. Tsuru, Corrosion monitoring of nickel-containing steels in marine atmospheric environment, Corros. Sci., 47(2005), No.10, p.2578.
T. Hodgkiess and G. Vassiliou, Complexities in the erosion corrosion of copper-nickel alloys in saline water, Desalination, 183(2005), No.2, p.235.
T. Nishimura and T. Kodama, Clarification of chemical state for alloying elements in iron rust using a binary-phase potential-pH diagram and physical analyses, Corros. Sci., 45(2003), No.5, p.1073.
T. Mizoguchi, Y. Ishii, T. Okada, et al., Magnetic property based characterization of rust on weathering steels, Corros. Sci., 47(2005), No.10, p.2477.
A. Nishkata, Y. Yamashita, H. Katayama, et al., An electrochemical impedance study on atmospheric corrosion of steels in a cyclic wet-dry condition, Corros. Sci., 37(1995), No.12, p.2059.
Y.T. Zhao, S.W. Yang, C.J. Shang, et al., The mechanical properties and corrosion behaviors of ultra-low carbon microalloying steel, Mater. Sci. Eng. A, 454–455(2007), No.4, p.695.
J. Guo, S.W. Yang, C.J. Shang, et al., Influence of carbon content and microstructure on corrosion behaviour of low alloy steels in a Cl− containing environment, Corros. Sci., 51(2009), No.9, p.242.
J. Guo, S.W. Yang, C.J. Shang, et al., Incubation and development of atmospheric corrosion in the microstructures of low alloy steels. J. Univ. Sci. Technol. Beijing (in Chinese), 31(2009), No.7, p.848.
L.D. Paolinelli, T. Pérez, and S.N. Simison, The effect of pre-corrosion and steel microstructure on inhibitor performance in CO2 corrosion, Corros. Sci., 50(2008), No.9, p.2456.
A.A. Hashem and W. Riad, The role of microstructure of nickel-aluminium-bronze alloy on its cavitation corrosion behavior in natural seawater, Mater. Charact., 48(2002), No.2, p.37.
D.A. López, W.H. Schreiner, S.R. De Sánchez, and S.N. Simison, The influence of carbon steel microstructure on corrosion layers an XPS and SEM characterization, Appl. Surf. Sci., 207(2003), No.2, p.69.
D.A. López, T. Pérez, and S.N. Simison, The influence of microstructure and chemical composition of carbon and low alloy steels in CO2 corrosion. A state-of-the-art appraisal, Mater. Design, 24(2003), No.8, p.561.
T. Kamimura, S. Hara, H. Miyuki, et al., Composition and protective ability of rust layer formed on weathering steel exposed to various environments, Corros. Sci., 48(2006), No.9, p.2799.