참고문헌 (55)

1. 2019 Pipeline transportation systems for liquids and slurries 

2. 2004 Specification for line pipe, APL specification 5L 

3. Mater Sci Eng, A Arafin 528 4927 2011 10.1016/j.msea.2011.03.036 Effect of bainitic microstructure on the susceptibility of pipeline steels to hydrogen induced cracking 

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4. Corrosion Sci Liu 51 895 2009 10.1016/j.corsci.2009.01.007 Effect of inclusions on initiation of stress corrosion cracks in X70 pipeline steel in an acidic soil environment 

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5. Fatig Fract Eng Mater Struct Drexler 37 517 2014 10.1111/ffe.12133 Fatigue crack growth rates of API X70 pipeline steel in a pressurized hydrogen gas environment 

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6. Mater Sci Eng, A Moro 527 7252 2010 10.1016/j.msea.2010.07.027 Hydrogen embrittlement susceptibility of a high strength steel X80 

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7. Mater Sci Eng, A Huang 527 6997 2010 10.1016/j.msea.2010.07.022 Effect of microstructure and inclusions on hydrogen induced cracking susceptibility and hydrogen trapping efficiency of X120 pipeline steel 

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8. Corrosion Sci Slifka 78 313 2014 10.1016/j.corsci.2013.10.014 Fatigue crack growth of two pipeline steels in a pressurized hydrogen environment 

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9. Int J Hydrogen Energy Ronevich 82 497 2016 Effects of microstructure banding on hydrogen assisted fatigue crack growth in X65 pipeline steels 

10. Int J Hydrogen Energy Chatzidouros 39 18498 2014 10.1016/j.ijhydene.2014.09.029 Hydrogen effect on a low carbon ferritic bainitic pipeline steel 

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11. Corrosion Sci Lan 112 180 2016 10.1016/j.corsci.2016.07.025 Hydrogen permeation behavior in relation to microstructural evolution of low carbon bainitic steel weldments 

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12. San marchi 1 2011 Proceedings of the ASME 2010 pressure vessels & piping conference Fracture and fatigue of commercial grade API pipeline steels in gaseous hydrogen 

13. J Pressure Vessel Technol San Marchi 130 2008 10.1115/1.2967833 Effect of high-pressure hydrogen gas on fracture of austenitic steels 

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14. Int J Hydrogen Energy Michler 37 16231 2012 10.1016/j.ijhydene.2012.08.071 Hydrogen environment embrittlement of stable austenitic steels 

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15. Corrosion Sci Jackson 77 210 2013 10.1016/j.corsci.2013.08.004 Effect of low temperature on hydrogen-assisted crack propagation in 304L/308L austenitic stainless steel fusion welds 

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16. Corrosion Sci Michler 50 3519 2008 10.1016/j.corsci.2008.09.025 Hydrogen environment embrittlement testing at low temperatures and high pressures 

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17. Xu 349 2009 Proceedings of the 2008 international hydrogen conference Tensile and fracture properties of carbon and low alloy steels in high pressure hydrogen 

18. Scripta Mater Matsuoka 154 101 2018 10.1016/j.scriptamat.2018.05.035 Peculiar temperature dependence of hydrogen-enhanced fatigue crack growth of low-carbon steel in gaseous hydrogen 

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19. Scripta Mater Ogawa 140 13 2017 10.1016/j.scriptamat.2017.06.037 Multi-scale observation of hydrogen-induced, localized plastic deformation in fatigue-crack propagation in a pure iron 

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20. Scripta Mater Zhu 97 21 2015 10.1016/j.scriptamat.2014.10.030 Improved resistance to hydrogen embrittlement in a high-strength steel by quenching-partitioning-tempering treatment 

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21. Mater Sci Eng, A Li 616 116 2014 10.1016/j.msea.2014.07.085 Effect of pre-strain on hydrogen embrittlement of high strength steels 

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22. Int J Hydrogen Energy Zhang 38 11181 2013 10.1016/j.ijhydene.2013.01.011 Influence of low temperature prestrain on hydrogen gas embrittlement of metastable austenitic stainless steels 

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23. Int J Hydrogen Energy Yamabe 42 13289 2017 10.1016/j.ijhydene.2017.04.055 Hydrogen diffusivity and tensile-ductility loss of solution-treated austenitic stainless steels with external and internal hydrogen 

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24. Stalheim 529 2010 2010 8th international pipeline conference Microstructure and mechanical property performance of commercial grade API pipeline steels in high pressure gaseous hydrogen 

25. Stalheim 2014 International hydrogen conference (IHC 2012) Microstructure and mechanical property performance evaluation of commercial grade API pipeline steels in high pressure gaseous hydrogen 

26. Corrosion Sci Zhao 133 251 2018 10.1016/j.corsci.2018.01.011 Study on hydrogen enrichment in X80 steel spiral welded pipe 

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27. Mater Sci Eng, A Ogawa 733 316 2018 10.1016/j.msea.2018.07.014 The role of intergranular fracture on hydrogen-assisted fatigue crack propagation in pure iron at a low stress intensity range 

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28. Int J Hydrogen Energy Nguyen 45 2368 2020 10.1016/j.ijhydene.2019.11.013 Effect of low partial hydrogen in a mixture with methane on the mechanical properties of X70 pipeline steel 

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29. Acta Mater Somerday 61 6153 2013 10.1016/j.actamat.2013.07.001 Elucidating the variables affecting accelerated fatigue crack growth of steels in hydrogen gas with low oxygen concentrations 

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30. Metall Mater Trans Robertson 46 2323 2015 10.1007/s11661-015-2836-1 Hydrogen embrittlement understood 

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31. Acta Mater Martin 165 734 2019 10.1016/j.actamat.2018.12.014 Enumeration of the hydrogen-enhanced localized plasticity mechanism for hydrogen embrittlement in structural materials 

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32. San Marchi 592 2012 Gaseous hydrogen embrittlement of materials in energy technologies Hydrogen embrittlement of stainless steels and their welds 

33. Xu 526 2012 Gaseous hydrogen embrittlement of materials in energy technologies Hydrogen embrittlement of carbon steels and their welds 

34. Int J Hydrogen Energy Hughes 39 20585 2014 10.1016/j.ijhydene.2014.03.229 Hydrogen compatibility of austenitic stainless steel tubing and orbital tube welds 

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35. Eng Fract Mech Yang 148 337 2015 10.1016/j.engfracmech.2015.07.061 Fracture toughness of the materials in welded joint of X80 pipeline steel 

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36. Eng Fract Mech Chen 148 110 2015 10.1016/j.engfracmech.2015.09.003 A comparison between fracture toughness at different locations of longitudinal submerged arc welded and spiral submerged arc welded joints of API X80 pipeline steels 

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37. Int J Hydrogen Energy Olden 37 11474 2012 10.1016/j.ijhydene.2012.05.005 Hydrogen diffusion and hydrogen influenced critical stress intensity in an API X70 pipeline steel welded joint-experiments and FE simulations 

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38. Corrosion Sci Zhao 111 84 2016 10.1016/j.corsci.2016.04.029 Hydrogen permeation and embrittlement susceptibility of X80 welded joint under high-pressure coal gas environment 

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39. Int J Hydrogen Energy Ronevich 42 4259 2017 10.1016/j.ijhydene.2016.10.153 Hydrogen accelerated fatigue crack growth of friction stir welded X52 pipe 

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40. 2005 Aws A 5.18: specification for carbon steel electrodes and rods for gas shielded arc welding 

41. 2011 Standard test method for determination of susceptibility of metals to embrittlement in hydrogen containing environments at high pressure, high temperature, or both 

42. 1996 Standard test method for vickers hardness of metallic materials 

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44. Lynch 274 2012 Gaseous hydrogen embrittlement of materials in energy technologies Metallographic and fractographic techniques for characterising and understanding hydrogen-assisted cracking of metals 

45. Int J Hydrogen Energy Meng 42 7404 2017 10.1016/j.ijhydene.2016.05.145 Hydrogen effects on X80 pipeline steel in high-pressure natural gas/hydrogen mixtures 

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46. Mater Sci Eng, A Huang 527 6997 2010 10.1016/j.msea.2010.07.022 Effect of microstructure and inclusions on hydrogen induced cracking susceptibility and hydrogen trapping efficiency of X120 pipeline steel 

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47. Corrosion Sci Park 50 1865 2008 10.1016/j.corsci.2008.03.007 Effect of microstructure on the hydrogen trapping efficiency and hydrogen induced cracking of linepipe steel 

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48. Eng Sci Technol Int J Saoudi 23 2 452 2020 Assessment and statistical correlation of mechanical properties of double sided single pass submerged arc welded line pipe steel 

49. Acta Mater Nibur 57 3795 2009 10.1016/j.actamat.2009.04.027 The role of localized deformation in hydrogen-assisted crack propagation in 21Cr-6Ni-9Mn stainless steel 

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50. Metall Mater Trans Somerday 40 2350 2009 10.1007/s11661-009-9922-1 Hydrogen-assisted crack propagation in austenitic stainless steel fusion welds 

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51. Korean J Metals Mater Park 57 405 2019 10.3365/KJMM.2019.57.7.405 Effects of molybdenum on HIC susceptibility in normalized pressure vessel steels for sour service applications 

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52. Mater Sci Eng, A Hu 577 161 2013 10.1016/j.msea.2013.04.044 Effect of welding heat input on microstructures and toughness in simulated CGHAZ of V-N high strength steel 

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53. Met Mater Int Mohtadi-Bonab 23 726 2017 10.1007/s12540-017-6691-z Effect of different microstructural parameters on hydrogen induced cracking in an API X70 pipeline steel 

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54. Int J Hydrogen Energy Jin 35 8014 2010 10.1016/j.ijhydene.2010.05.089 Effect of non-metallic inclusions on hydrogen-induced cracking of API5L X100 steel 

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55. Metall Mater Trans Lu 41 2538 2010 10.1007/s11661-010-0283-6 Near-Neutral pH stress corrosion cracking susceptibility of plastically prestrained X70 steel weldment 

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