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Volume 11 Issue 6
Dec.  2004
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Jianmin Wang, Xuequn Chen,  and Guomin Li, Susceptibility of two types of low-alloy hull steels to pit initiation, J. Univ. Sci. Technol. Beijing, 11(2004), No. 6, pp. 555-560.
Cite this article as:
Jianmin Wang, Xuequn Chen,  and Guomin Li, Susceptibility of two types of low-alloy hull steels to pit initiation, J. Univ. Sci. Technol. Beijing, 11(2004), No. 6, pp. 555-560.
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Materials

Susceptibility of two types of low-alloy hull steels to pit initiation

  • 通讯作者:

    Jianmin Wang    E-mail: grcen_apples@163.com

  • Four low-alloy hull steels with different alloy elements were selected. Their susceptibility to pitting corrosion was compared by means of electrochemical polarization test. The inclusions in the steels and their pitting corrosion characteristics were studied by an electron probe micro-analyzer (EPMA). The results indicate that some inclusions are the main sources of pitting corrosion.The susceptibility of nickel-chromium steel to pit initiation is less than that of manganese steel. Under the same conditions, nickelchromium steel is easier to passivate than manganese steel, and the passive films on nickel-chromium steel surface are more stable than that on manganese steel. In low-alloy steels, the higher the contents of nickel and chromium, the lower the critical passive pH value. In the same kind of steel, multi-phase inclusions containing sulfide are easier to initiate pitting corrosion than other inclusions.
  • Materials

    Susceptibility of two types of low-alloy hull steels to pit initiation

    + Author Affiliations
    • Four low-alloy hull steels with different alloy elements were selected. Their susceptibility to pitting corrosion was compared by means of electrochemical polarization test. The inclusions in the steels and their pitting corrosion characteristics were studied by an electron probe micro-analyzer (EPMA). The results indicate that some inclusions are the main sources of pitting corrosion.The susceptibility of nickel-chromium steel to pit initiation is less than that of manganese steel. Under the same conditions, nickelchromium steel is easier to passivate than manganese steel, and the passive films on nickel-chromium steel surface are more stable than that on manganese steel. In low-alloy steels, the higher the contents of nickel and chromium, the lower the critical passive pH value. In the same kind of steel, multi-phase inclusions containing sulfide are easier to initiate pitting corrosion than other inclusions.
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