A brief overview is given of the corrosion and hydrogen diffusion behaviors of high strength pipe steel in sour environment. Firstly, hydrogen adsorption and diffusion mechanism of the pipe steel is introduced. Secondly, the effect of iron sulfide film precipitated as a result of the corrosion reaction on the steel surface on hydrogen reduction reaction and subsequent hydrogen permeation through the steel is discussed. Moreover, the hydrogen diffusion behavior of the pipe steel under tensile stress in both elastic and plastic ranges is reviewed based on a number of experimental permeation data and theoretical models describing the hydrogen diffusion and trapping phenomena in the steel. It is hoped that this paper will result in significant academic contributions in the field of corrosion and hydrogen related problems of the pipe steel used in sour environment.

1 김동윤, "시편 예열 온도가 FCW 용착금속의 확산성 수소량에 미치는 영향" 대한용접접합학회 32 (32): 18-21, 2014

2 유재석, "다층 FCA 용착금속의 수소취성 저항성 및 확산성 수소 방출 거동" 대한용접접합학회 31 (31): 112-118, 2013

3 K. Kiuchi, "The solubility and diffusivity of hydrogen in well-annealed and deformed iron" 31 : 961-984, 1983

4 G. C. Schmid, "The resistance of nickel containing ssteels and weld metals to sulphide stress corrosion cracking" 1979

5 H. Kobayashi, "The low-temperature specific heat of FeS and M0.875X (M = Fe, Co; X = S, Se) with a NiAs-like structure" 11 : 8673-8679, 1999

6 B. E. Wilde, "The influence of noble metal additions on the sulfide corrosion performance of AISI 4130 steel" 38 : 515-524, 1982

7 R. A. Carneiro, "The influence of chemical composition and microstructure of API linepipe steels on hydrogen induced cracking and sulfide stress corrosion cracking" A357 : 104-110, 2003

8 J. O’M. Bockris, "The hydrogen evolution kinetics and hydrogen entry into α-iron" 112 : 1025-1031, 1965

9 T. Zakroczymski, "The effect of straining on the transport of hydrogen in iron and stainless steel" 41 : 485-489, 1985

10 M. Kurkela, "The effect of plastic deformation on the transport of hydrogen in nickel" 13 : 927-932, 1979

11 R. A. Oriani, "The diffusion and trapping of hydrogen in steel" 18 : 147-157, 1970

12 G. M. Waid, "The development of high strength casing steels with improved hydrogen sulfide cracking resistance for sour service" 1979

13 H. –Y. Liou, "Roles of microalloying elements in hydrogen induced cracking resistant property of HSLA steels" 49 : 389-398, 1993

14 W. K. Kim, "Relationship between hydrogen-induced cracking and type I sulfide stress cracking of highstrength linepipe steel" 62 : 195-198, 2010

15 Z. A. Iofa, "Protection of metal" 10 : 17-, 1974

16 R. Blondeau, "Problems related to use of low apply steels in H2S environments" 18 (18): 201-210, 1991

17 P. W. Bolmer, "Polarization of Iron in H2S-NaHS Buffers" 21 : 69-75, 1965

18 NACE, "NACE standard TM0284 : Evaluation of pipeline and pressure vessel steels for resistance to hydrogen induced cracking"

19 M. Kurkela, "Influence of plastic deformation on hydrogen transport in 2.25Cr-1Mo steel" 16 : 455-459, 1982

20 P. Bastien, "Influence de L' croussage Sur le Frottement Inttirieur du Fer et de L'ancior" 232 : 1845-1848, 1951

21 Y. T. He, "Impact of iron sulfide transformation on trichloroethylene degradation" 74 : 2025-2039, 2010

22 P. Castaño–Rivera, "Hydrogen trapping in an API 5L X60 steel" 54 : 106-118, 2012

23 A. Kawashima, "Hydrogen electrode reaction and hydrogen embrittlement of mild steel in hydrogen sulfide solutions" 32 : 321-332, 1976

24 H. E. Townsend, "Effects of stress on entry and permeation of hydrogen in iron" 26 : 361-362, 1970

25 S. J. Kim, "Effect of tensile stress in elastic and plastic range on hydrogen permeation of high-strength steel in sour environment" 78 : 139-146, 2012

26 G. T. Park, "Effect of microstructure on the hydrogen trapping efficiency and hydrogen induced cracking of linepipe steel" 50 : 1865-1871, 2008

27 Y. Huang, "Effect of mechanical deformation on permeation of hydrogen in iron" 43 : 548-554, 2003

28 H. Inagaki, "Effect of Cu on the hydrogen induced cracking of the pipe line steel" 18 : 149-156, 1978

29 S. J. Kim, "Effect of Cu and Ni on sulfide film formation and corrosion behavior of pressure vessel steel in acid sour environment" 313 : 396-404, 2014

30 P. G. Kumar, "Diffusible hydrogen in steel weldments" 42 : 39-62, 2013

31 S. J. Kim, "Determination of hydrogen diffusion parameters of ferritic steel from electrochemical permeation measurement under tensile loads" 161 (161): E173-E181, 2014

32 C. Mendibide, "Composition optimization of high-strength steels for sulfide stress cracking resistance" 51 : 2878-2884, 2009

33 A. Turnbull, "Analysis of hydrogen diffusion and trapping in a 13 %chromium martensitic stainless steel" 37 : 2039-2046, 1989

34 A. McNabb, "A new analysis of the diffusion of hydrogen in iron and ferritic steels" 227 : 618-627, 1963

35 M. Iino, "A more generalised analysis of hydrogen trapping" 30 : 367-375, 1982