Stress Oriented Hydrogen Induced Cracking of Linepipe Steel

被引:0
|
作者
Kim, Wan Keun [1 ]
Park, Gyu Tae [1 ]
Kim, Kyoo Young [1 ]
机构
[1] Pohang Univ Sci & Technol, Grad Inst Ferrous Technol, Pohang 790784, South Korea
来源
JOURNAL OF IRON AND STEEL RESEARCH INTERNATIONAL | 2011年 / 18卷
关键词
linepipe steel; stress oriented hydrogen induced cracking; hydrogen induced cracking; metallurgical factor; diffusible hydrogen; LOW-ALLOY STEELS; SOUR ENVIRONMENTS; PIPELINE STEELS; HIGH-STRENGTH; SUSCEPTIBILITY; EMBRITTLEMENT; PERMEATION; MOLYBDENUM; RESISTANCE; IRON;
D O I
暂无
中图分类号
TF [冶金工业];
学科分类号
0806 ;
摘要
The stress oriented hydrogen induced cracking (SOHIC) is a typical hydrogen embrittlement phenomenon occurring in the linepipe steels exposed to sour environment containing H(2)S gas. However, even recently, the cracking mechanism of SONIC has not been clarified because of lacking in the empirical data on the actual failure mode of SOH IC cracking. The factors affecting SOH IC are discussed in terms of metallurgy of high strength linepipe steel and hydrogen electrochemistry. The cracking mechanisms of SOHIC are examined by comparing them with the empirical failure mode of SOHIC which is developed by observation of the actual fracture sites of the hydrogen induced blister cracking (HIBC) and secondary cracks. Finally, the correlation between SOHIC and HIC is discussed.
引用
收藏
页码:121 / 128
页数:8
相关论文
共 50 条
  • [21] Formation Criterion of Hydrogen-Induced Cracking in Steel Based on Fracture Mechanics
    Fu, Lei
    Fang, Hongyuan
    METALS, 2018, 8 (11)
  • [22] Microstructural characterization of hydrogen induced cracking in TRIP-assisted steel by EBSD
    Laureys, A.
    Depover, T.
    Petrov, R.
    Verbeken, K.
    MATERIALS CHARACTERIZATION, 2016, 112 : 169 - 179
  • [23] Effect of Microstructure on Hydrogen Induced Cracking Behavior of a High Deformability Pipeline Steel
    Shi, Xian-bo
    Yan, Wei
    Wang, Wei
    Zhao, Lian-yu
    Shan, Yi-yin
    Yang, Ke
    JOURNAL OF IRON AND STEEL RESEARCH INTERNATIONAL, 2015, 22 (10) : 937 - 942
  • [24] Effect of Constant Load on Hydrogen Diffusion and Trapping of API X65 Grade Linepipe Steel
    Park, Gyutae
    Kim, Kyoo Young
    Jung, Hwan Gyo
    Koh, Seong Ung
    INTERNATIONAL JOURNAL OF OFFSHORE AND POLAR ENGINEERING, 2011, 21 (01) : 70 - 74
  • [25] Research on Hydrogen-Induced Induced Cracking Sensitivity of X80 Pipeline Steel under Different Heat Treatments
    Wu, Chen
    Yan, Chunyan
    Zhang, Shenglin
    Zhou, Lingchuan
    Shen, Mengdie
    Tian, Zhanpeng
    MATERIALS, 2024, 17 (09)
  • [26] Investigation of the hydrogen induced cracking behaviour of API 5L X65 pipeline steel
    Jack, Tonye Alaso
    Pourazizi, Reza
    Ohaeri, Enyinnaya
    Szpunar, Jerzy
    Zhang, Jiming
    Qu, Jinbo
    INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2020, 45 (35) : 17671 - 17684
  • [27] Effect of microstructures and inclusions on hydrogen-induced cracking and blistering of A537 steel
    Du, X. S.
    Cao, W. B.
    Wang, C. D.
    Li, S. J.
    Zhao, J. Y.
    Sun, Y. F.
    MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2015, 642 : 181 - 186
  • [28] A Review on the Role of Crystallographic Texture in Hydrogen-Induced Cracking Susceptibility in Pipeline Steel
    Mohtadi-Bonab, M. A.
    Masoumi, Mohammad
    Entezari, Ehsan
    JOURNAL OF MATERIALS ENGINEERING AND PERFORMANCE, 2025,
  • [29] Influence of metallurgical factors on the hydrogen induced cracking of carbon steel wires in H2S-containing environments
    Campos, Emanuel Seixas
    de Sa, Jonas da Silva
    Campos, Tatiane Seixas
    de Souza, Eduardo Alencar
    Gomes, Jose Antonio da Cunha Ponciano
    ENGINEERING FAILURE ANALYSIS, 2024, 155
  • [30] Prediction of threshold stress intensity factor for hydrogen induced intergranular cracking of tubular steel
    Qiao, LJ
    Chu, WY
    Luo, JL
    MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2000, 276 (1-2): : 141 - 146
12345