A numerical analysis of galvanic corrosion of hot-dip galvanized steel immersed in seawater was presented.The analysis was based on the boundary element methods (BEMs) coupled with Newton-Raphson iterative technique to treat the nonlinear boundary conditions, which were determined by the experimental polarization curves. Results showed that galvanic current density concentrates on the boundary of steel substrate and zinc coating, and the sacrificial protection of zinc coating to steel substrate results in overprotection of steel cathode. Not only oxygen reduction but also hydrogen reduction could occur as cathode reactions, which probably led up to the adsorption and absorption of hydrogen atoms. Flat galvanized steel tensile sample shows a brittle behavior similar to hydrogen embrittlement according to the SSRT (show strain rate test) in seawater.
参考文献
| [1] | G.A.El-Mahdy;A.Nishikata;T.Tsuru .[J].Corrosion Science,2000,42(09):183. |
| [2] | C.J.Slunder;W.K.Boyd.Zinc,Its Corrosion Resistance[M].International Lead Zinc Research Organization,Inc.New York,1986 |
| [3] | Y.Li .[J].Bulletin of Materials Science,2001,24(03):101. |
| [4] | J.M.Lee .[J].Electrochimica Acta,2006,51(06):3256. |
| [5] | D. A. Worsley;S. M. Powell;H. N. McMurray .Influence of remote cathodes on corrosion mechanism at exposed cut edges in organically coated galvanized steels[J].Corrosion: The Journal of Science and Engineering,2000(5):492-500. |
| [6] | Z.Panossian;L.Mariaca;M.Morcillo;S.Flores J.Rocha J.J.Pe(n)a F.Herrera F.Corvo M.Sanchez O.T.Rincon G.Pridybailo and J Simancas .[J].Surface and Coatings Technology,2005,190(2-3):244. |
| [7] | A.Tahara;T.Kodama .[J].Corrosion Science,2000,42(08):655. |
| [8] | K.Amaya;S.Aoki .[J].Engineering Analysis With Boundary Elements,2003,27(12):507. |
| [9] | D.J.Danson;M.A.Warne.Current Density/Voltage Calculation Using Boundary Element Techniques[M].NACE Coherence,Los Angeles,1983 |
| [10] | R.A.Adey;S.M.Niku.[A].San Antonio,1990 |
| [11] | F. Druesne;P. Paumelle;P. Villon .Determination of the laws of polarization by coupling measurements with numerical tool[J].Journal of Materials Processing Technology,2001(1/3):368-370. |
| [12] | F.E.Varela;Y.Kurata;N.Sanada.Boundary Element Technology XI[M].WIT Press,Boston,1997 |
| [13] | F.E.Varela;Y.Kurata;N.Sanada .[J].Corrosion Science,1997,39(09):775. |
| [14] | J.X.Jia;G.L.Song;A.Atrens .[J].Corrosion Science,2006,48(10):2133. |
| [15] | X.G.Zhang .[J].Corrosion,1998,56(10):139. |
| [16] | G.F. Karlis;S.V. Tsinopoulos;D. Polyzos;D.E. Beskos .Boundary element analysis of mode I and mixed mode (I and II) crack problems of 2-D gradient elasticity[J].Computer Methods in Applied Mechanics and Engineering,2007(49/52):5092-5103. |
| [17] | X.W.Gao;C.Zhang;J.Sladek;V.Sladek .[J].Composites Science and Technology,2008,68(04):1209. |
| [18] | T.Y.Qin;Y.S.Yu;N.A.Noda .[J].International Journal of Solids and Structures,2007,44(03):4770. |
| [19] | T.Y.Qin;R.J.Tang .[J].International Journal of Fracture,1993,60(10):373. |
| [20] | T.T.M. Onyango;D.B. Ingham;D. Lesnic .Reconstruction of heat transfer coefficients using the boundary element method[J].Computers & Mathematics with Applications: An International Journal,2008(1):114-126. |
| [21] | G.R.Fernandes;W.S.Venturini .[J].Engineering Analysis With Boundary Elements,2007,31(04):721. |
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