Effect of circular cavity on maximum equivalent stress and stress intensity factor at a crack in buried pipeline

被引:0
|
作者
Ouk Sub Lee
Seon Soon Choi
机构
[1] Inha University,School of Mechenical, Aerospace and Automation
[2] Inha University,Department of Mechanical Engineering, Graduate Student
来源
KSME International Journal | 1999年 / 13卷
关键词
Buried Pipeline; Cavity; Stress Intensity Factor; Maximum Equivalent Stress;
D O I
暂无
中图分类号
学科分类号
摘要
The effects of cavities on maximum equivalent stresses of buried pipelines are investigated in terms of two factors such as size and location of the underground cavities by using a finite element code. It has been found that the cavities affect maximum equivalent stresses of buried pipeline significantly in case that the diameters of cavities are larger than that of the pipeline. The variation of the stress intensity factors for a crack existing on the buried pipeline nearby cavities is also studied. The mode II stress intensity factor, KII, for a tilt crack located at the top portion of a buried pipeline is found to be influenced significantly regardless of the location of the underground cavities.
引用
收藏
页码:350 / 357
页数:7
相关论文
共 50 条
  • [1] Effect of circular cavity on maximum equivalent stress and stress intensity factor at a crack in buried pipeline
    Lee, OS
    Choi, SS
    KSME INTERNATIONAL JOURNAL, 1999, 13 (04): : 350 - 357
  • [2] Dynamic Stress Intensity Factor for a Radial Crack on a Circular Cavity in a Piezoelectric Medium
    Song, Tianshu
    Li, Dong
    Lv, Mingyue
    Zhang, Mingju
    ADVANCES IN FRACTURE AND DAMAGE MECHANICS IX, 2011, 452-453 : 273 - 276
  • [3] DYNAMIC STRESS INTENSITY FACTOR FOR AN INTERFACIAL CRACK ON A CIRCULAR CAVITY IN PIEZOELECTRIC MEDIA
    Song, Tianshu
    Li, Dong
    Merhej, Tamman
    PROCEEDINGS OF THE ASME INTERNATIONAL MECHANICAL ENGINEERING CONGRESS AND EXPOSITION - 2010, VOL 8, PTS A AND B, 2012, : 257 - 262
  • [4] The maximum possible stress intensity factor for a crack in an unknown residual stress field
    Coules, H. E.
    Smith, D. J.
    INTERNATIONAL JOURNAL OF PRESSURE VESSELS AND PIPING, 2015, 134 : 33 - 45
  • [5] THE RELATION BETWEEN THE PEAK STRESS FOR A BLUNT FLAW AND THE STRESS INTENSITY FACTOR FOR AN EQUIVALENT CRACK
    Smith, Edwin
    PROCEEDINGS OF THE ASME PRESSURE VESSELS AND PIPING CONFERENCE 2010, VOL 6, PTS A AND B, 2010, : 67 - 70
  • [6] Analysis of the Stress Intensity Factor of a Pipeline Surface with a Pit-Crack
    Yu J.
    Li X.
    Tan Y.
    Jin C.
    Feng Z.
    Han X.
    Fu F.
    Tianjin Daxue Xuebao (Ziran Kexue yu Gongcheng Jishu Ban)/Journal of Tianjin University Science and Technology, 2019, 52 (05): : 522 - 528
  • [7] THE EFFECT OF A CIRCULAR CYLINDRICAL HOLE ON THE STRESS INTENSITY AT A CRACK TIP
    SMITH, E
    ARCHIVES OF MECHANICS, 1983, 35 (5-6): : 741 - 746
  • [8] Effect of initial stresses on the stress intensity factor in a prestressed elastic layer weakened by a circular crack
    Baich, SY
    Guz, AN
    Primachenko, OV
    INTERNATIONAL APPLIED MECHANICS, 1996, 32 (01) : 1 - 7
  • [9] Fatigue analysis of crack growing rate and stress intensity factor for stress corrosion cracking in a pipeline system
    Shahani, A.R.
    Mahdavi, E.
    Amidpour, M.
    World Academy of Science, Engineering and Technology, 2009, 33 : 785 - 788
  • [10] STRESS INTENSITY FACTORS FOR THE CIRCULAR ANNULUS CRACK
    CLEMENTS, DL
    ANG, WT
    INTERNATIONAL JOURNAL OF ENGINEERING SCIENCE, 1988, 26 (04) : 325 - 329
12345