Low temperature impact toughness of the main gas pipeline steel after long-term degradation

详细信息    查看全文

• 作者：Pavlo O. Maruschak (1)
  Iryna M. Danyliuk (1)
  Roman T. Bishchak (2)
  Toma啪 Vuherer (3)
  
• 关键词：impact toughness ; fracture ; damage ; gas pipeline ; steel ; degradation
• 刊名：Central European Journal of Engineering
• 出版年：2014
• 出版时间：December 2014
• 年：2014
• 卷：4
• 期：4
• 页码：408-415
• 全文大小：680 KB
• 参考文献：1. Nykyforchyn H. M., Effect of hydrogen on the kinetics and mechanism of fatigue crack growth in structural steels, Mat Sci, 33, 1997, 504鈥?15 CrossRef
  2. Zagyrski A., Matysiak H., Tsyrulnyk O. T., Zvirko I. I., Nykyforchyn H. M., Kurzydlowski K., Corrosion and stress corrosion cracking of exploited storage tank steel, Mat Sci, 40, 2004, 421鈥?33 CrossRef
  3. Krasovskii A. Ya., Lokhman I. V., Orynyak I. V., Stress-corrosion failures of main pipelines, Strength of Materials, 44, 2012, 129鈥?43 CrossRef
  4. Kotrechko S. O., Krasowsky A. Ya., Meshkov Yu. Ya., Torop V. M., Effect of long-term service on the tensile properties and capability of pipeline steel 17GS to resist cleavage fracture, Int J Press Vess Piping, 81, 2004, 337鈥?44 vp.2004.02.015" target="_blank" title="It opens in new window">CrossRef
  5. Nykyforchyn H., Lunarska E., Tsyrulnyk O. et al. Environmentally assisted 鈥榠n-bulk鈥?steel degradation of long term service gas trunkline, Eng. Failure Analysis, 17, 2010, 624鈥?32 CrossRef
  6. Majid Z. A., Mohsin R. Failure Investigation of natural gas pipeline, Arabian J for Sci. and Eng, 37, 2012, 1083鈥?088 CrossRef
  7. Pilkey A. K., Lambert S. B., Plumtree A., Stress corrosion cracking of X-60 line pipe steel in a carbonate-bicarbonate solution, Corrosion, 51, 1995, 91鈥?6 CrossRef
  8. Zong C., Zhu G., Mao W., Effect of crystallographic texture on the anisotropy of Charpy impact behavior in pipeline steel, Mater Sci Eng A, 563, 2013, 1鈥? CrossRef
  9. Balokhonov R. R., Stefanov Yu. P., Makarov P. V., Smolin I. Yu., Deformation and fracture of surfacehardened materials at meso- and macroscale levels, Theor Appl Fracture Mech, 33, 2000, 9鈥?6 CrossRef
  10. Wang W., Shan Y. Y., Yang K., Study of high strength pipeline steels with different microstructures, Mater Sci Eng A, 502, 2009, 38鈥?4 CrossRef
  11. Maruschak P. O., Bishchak R. T., Vuherer T., Laws governing the dynamic fracture of two-layer bimetallic composites. Metallurgist, 55, 2011, 444鈥?49 CrossRef
  12. Kryzhanivs鈥檏yi E. I., Nykyforchyn H. M., Specific features of hydrogen-induced corrosion degradation of steels of gas and oil pipelines and oil storage reservoirs, Mat Sci, 47, 2011, 127鈥?36 CrossRef
  13. Botvina L. R., Blinov V. M., Tyutin M. R., Bannykh I. O., Blinov E. V., Fracture of high-nitrogen 05Kh20G10N3AMF steel during impact loading. Russian Metallurgy (Metally) 2012, 2012, 239鈥?47
  14. Makarov P. V., Localized deformation and fracture of polycrystals at mesolevel, Theor. Appl. Fracture Mech., 33, 2000, 23鈥?0 CrossRef
  15. Wang J. Q., Atrens A., Cousens D. R., Nockolds C., Bulcock S., Boundary Characterisation of X65 Pipeline Steel Using Analytical Electron Microscopy, J. Mater. Sci., 34, 1999, 1711鈥?719 CrossRef
  16. Balokhonov R. R., Makarov P. V., Romanova V. A., Smolin I. Yu., Simulation of crystal plasticity under dynamic loading, Comput Mat Sci, 16, 1999, 355鈥?61 CrossRef
  17. Torop V. M., Orynyak I. V., The evaluation of structural strength of pipes and pressure vessels with axial cracks. Int J of Pressure Vessels and Piping, 53, 1993, 159鈥?79 CrossRef
  18. Maruschak P., Baran D., Gliha V., A multiscale approach to deformation and fracture of heatresistant steel under static and cyclic loading. Med啪iagotyra, 19, 2013, 29鈥?3
  
• 作者单位：Pavlo O. Maruschak (1)
  Iryna M. Danyliuk (1)
  Roman T. Bishchak (2)
  Toma啪 Vuherer (3)
  
  1. Ternopil Ivan Pul鈥檜j National Technical University, 46001, Ruska 56, Ukraine
  2. Ivano-Frankivsk National Technical University of Oil and Gas, 76019, Karpatska 15, Ukraine
  3. University of Maribor, Smetanova 17, SI-2000, Maribor, Slovenia
  
• ISSN：2081-9927

文摘

The correlation of microstructure, temperature and Charpy V-notch impact properties of a steel 17G1S pipeline steel was investigated in this study. Within the concept of physical mesomechanics, the dynamic failure of specimens is represented as a successive process of the loss of shear stability, which takes place at different structural/scale levels of the material. Characteristic stages are analyzed for various modes of failure, moreover, typical levels of loading and oscillation periods, etc. are determined. Relations between low temperature derived through this test, microstructures and Charpy (V-notch) toughness test results are also discussed in this paper.