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Volume 22 Issue 8
Aug.  2015
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Jia-hua Liu, Lei Wang, Yang Liu, Xiu Song, Jiong Luo, and Dan Yuan, Effects of H content on the tensile properties and fracture behavior of SA508-III steel, Int. J. Miner. Metall. Mater., 22(2015), No. 8, pp. 820-828. https://doi.org/10.1007/s12613-015-1139-2
Cite this article as:
Jia-hua Liu, Lei Wang, Yang Liu, Xiu Song, Jiong Luo, and Dan Yuan, Effects of H content on the tensile properties and fracture behavior of SA508-III steel, Int. J. Miner. Metall. Mater., 22(2015), No. 8, pp. 820-828. https://doi.org/10.1007/s12613-015-1139-2
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Effects of H content on the tensile properties and fracture behavior of SA508-III steel

  • 通讯作者:

    Lei Wang    E-mail: wanglei@mail.neu.edu.cn

  • SA508-Ⅲ steel was charged with different hydrogen (H) contents using a high-pressure thermal charging method to study the effects of H content on the tensile properties and evaluate the H embrittlement behavior of the steel. The results indicate that the ultimate tensile strength remains nearly unchanged with the addition of H. In contrast, the yielding strength slightly increases, and the elongation significantly decreases with increasing H content, especially at concentrations exceeding 5.6×10-6. On the basis of fractographic analysis, it is clear that the addition of H changes the fracture mode from microvoid coalescence to a mixture of river patterns and dimples. Carbides are strong traps for H; thus, the H atoms easily migrate in the form of Cottrell atmosphere toward the carbides following moving dislocations during tensile deformation. In addition, stress-induced H atoms accumulate at the interface between carbides and the matrix after necking under three-dimensional stress, which weakens the interfacial bonding force. Consequently, when the local H concentration reaches a critical value, microcracks occur at the interface, resulting in fracture.
  • Effects of H content on the tensile properties and fracture behavior of SA508-III steel

    + Author Affiliations
    • SA508-Ⅲ steel was charged with different hydrogen (H) contents using a high-pressure thermal charging method to study the effects of H content on the tensile properties and evaluate the H embrittlement behavior of the steel. The results indicate that the ultimate tensile strength remains nearly unchanged with the addition of H. In contrast, the yielding strength slightly increases, and the elongation significantly decreases with increasing H content, especially at concentrations exceeding 5.6×10-6. On the basis of fractographic analysis, it is clear that the addition of H changes the fracture mode from microvoid coalescence to a mixture of river patterns and dimples. Carbides are strong traps for H; thus, the H atoms easily migrate in the form of Cottrell atmosphere toward the carbides following moving dislocations during tensile deformation. In addition, stress-induced H atoms accumulate at the interface between carbides and the matrix after necking under three-dimensional stress, which weakens the interfacial bonding force. Consequently, when the local H concentration reaches a critical value, microcracks occur at the interface, resulting in fracture.
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