Corrosion Science and Technology

The Corrosion Science Society of Korea (한국부식방식학회)
권호 표지

Corrosion on Steel Surfaces with Sea-Salt Deposition and Artificial Seawater Film

  • Published : 2004.04.01
Download PDF
⟨ Previous Next ⟩

Abstract

The conditions to simulate the atmospheric corrosion behavior in the laboratory were investigated to clarify atmospheric corrosion mechanism of steel material in coastal area, For airborne sea salt and artificial seawater droplet, the various behaviors were observed by optical microscope, The particle size of the dried airborne sea salt was about $20{\mu}m$, and was about 1/10 compared with the artificial seawater droplet. Though the airborne sea salt represented the same behavior as the thermodynamic water absorption, the behavior of the artificial seawater droplet deviated from the results of the thermodynamic calculation, It is concluded that the water absorption behavior is influenced by the particle size of the dried sea salt. The corrosion behaviors of carbon steels were observed under the deposited condition of airborne sea salt and artificial seawater droplet. The corrosion behaviors showed a different trend, indicating that the corrosion behavior depended on the particle size of the dried sea salt. The corrosion in the actual environrnent progressed greater than that in the chamber. Furthermore, the summer showed the greater corrosion than the spring. It is found that the corrosion behaviors are attributed to the influence of the environmental factors.

Keywords

References

  1. M. Yamamoto, Bosei Kanri, 43, I (1999)
  2. A. Nishikata, T. Takahashi, H. Bao-Rong, and T. Tsuru, Zairyo-to-Kankyo, 43, 188 (1994)
  3. M. Stratmann and H. Streckel, Ber. Bunsenges. Phys. Chem., 92, 1244 (1988)
  4. M. Yamashita and H. Nagano, 1. Japan Inst. Metals, 61, 721 (1997)
  5. Encyclopedia chimica, Kyoritu Syuppan, 249 (1960)
  6. M. Yamamoto, K. Masuda, H. Kihira, and T. Tsuzuki, Proc. Int. Conf. on Corrosion CONCORN'97 (Mumbai, India), 527 (1997)
  7. M. Yamamoto, H. Masuda, and 1. Kodama, Zairyo-toKankyo, 48, 633 (1999)
  8. I. N. Tang, J. Aerosol Sci., 7, 361 (1976)
  9. I. Muto and K. Sugimoto, Zairyo-to-Kankyo, 47, 527 (1998)
  10. H. Katayama, K. Noda, M. Yamamoto, and T. Kodama, J. Japan lnst. Metals, 65, 298 (2001)
  11. H. Masuda, Proc. of JSCE Materials and Environments 2000, 123 (2000)
  12. M. Yamamoto, H. Katayama, and T. Kodama, J. Japan Inst. Metals, 65, 465 (2001)
  13. A. Nishikata, Y. Saijo, 1. Tsuru, M. Ito, and A. Usami, Proc. of JSCE Materials and Environments 2001, 317 (2001 )
  14. N. D. Tomashov, Theory of Corrosion and Protection of Metals, New York, 367 (1966)
  15. IS. E. R. Evans, Nature, 206, 980 (1965)
  16. E. R. Evans, Corr. Sci., 9, 813 (1969)