, Test Method NACE TM0284-96, Evaluation of pipeline and pressure vessel steels for resistance to Hydrogen Induced Cracking, 1996.

S. Eliassen, L. Smith, and P. Jackman, Guidelines on materials requirements for carbon and low alloy steels for H 2 S-containing environments, Oil and gas production 2 nd Edition European Federation of Corrosion, p.2002

. Nace-mr0175/, ISO 15156-2, Petroleum and natural gas industries -Materials for use in H 2 S containing environments in oil and gas production -Part 2: Cracking-resistant carbon and low alloy steel, and the use of cast iron, 2003.

J. Roget, Essais non destructifs, l'émission acoustique: mise en oeuvre et applications

H. Mazille and R. , Rothéa The use of acoustic emission for the study and monitoring of localized corrosion phenomena, Modeling aqueous corrosion, pp.103-127, 1994.

S. Yuyama, T. Kishi, and Y. Hisamatsu, AE Analysis during Corrosion Cracking and Corrosion Fatigue Process, Journal of Acoustic Emission, vol.2, issue.2, pp.71-93, 1983.

W. J. Pollock, D. Hardie, and N. J. Holroyd, Monitoring Sub-Critical Crack Growth due to Stress Corrosion or Hydrogen Embrittlement by Acoustic Emission, British Corrosion Journal, vol.17, pp.103-111, 1982.

W. W. Gerberich, R. H. Jones, M. A. Friesel, and N. Nozue, Acoustic Emission Monitoring of Stress Corrosion Cracking, Materials Science and Engineering, vol.103, pp.185-191, 1988.

F. Ferrer, H. Idrissi, H. Mazille, P. Fleischmann, and P. Labeeuw, On the potential of acoustic emission for the characterization and understanding of mechanical damaging during corrosion-abrasion processes, Wear, vol.231, pp.108-115, 1999.

R. H. Jones and M. A. Friesel, Acoustic Emission during Pitting and Transgranular Crack Initiation in Type 304 Stainless Steel, Corrosion, vol.48, issue.9, pp.751-758, 1992.

H. Mazille, R. Rothea, and C. Tronel, An Acoustic emission Technique for Monitoring Pitting Corrosion of Austenitic Stainless Steels, Corrosion Science, vol.37, issue.9, pp.1365-1375, 1995.

M. Fregonese, H. Idrissi, H. Mazille, L. Renaud, and Y. Cêtre, Monitoring Pitting Corrosion of AISI 316L austenitic stainless steel by acoustic emission technique: choice of Representative Acoustic parameters, Journal of Materials Science, vol.36, pp.557-563, 2001.
URL : https://hal.archives-ouvertes.fr/hal-00475342

M. Fregonese, H. Idrissi, H. Mazille, L. Renaud, and Y. Cetre, Initiation and propagation steps in pitting corrosion of austenitic stainless steels: monitoring by acoustic emission, Corrosion Science, vol.43, pp.627-641, 2001.
URL : https://hal.archives-ouvertes.fr/hal-00475343

Y. P. Kim, M. Fregonese, H. Mazille, D. Féron, and G. Santarini, Ability of acoustic emission technique for detection and monitoring of crevice corrosion on 304L stainless steel, NDT&E International, vol.36, pp.553-562, 2003.
URL : https://hal.archives-ouvertes.fr/hal-00475098

Y. P. Kim, M. Fregonese, H. Mazille, D. Féron, and G. Santarini, Study of oxygen reduction on stainless steel surfaces and its contribution to acoustic emission recorded during corrosion processes, Corrosion Science, vol.48, pp.3945-3959, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00436224

F. Bellanger, H. Mazille, and H. Idrissi, Use of acoustic emission technique for the early detection of aluminum alloys exfoliation corrosion, NDT&E International, vol.35, pp.385-392, 2002.

L. Jaubert, M. Fregonese, D. Caron, F. Ferrer, C. Franck et al., On the opportunity to use non-intrusive acoustic emission recordings for monitoring uniform corrosion of carbon steel and austenitic stainless steel in acid and neutral solutions, Insight, vol.47, pp.465-471, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00436863

J. Galland, J. Sojka, and M. Jérome, Chapitre 12: Introduction d'hydrogène dans les aciers, Prévention et lutte contre la corrosion publié sous la direction de Bernard Normand, p.273, 2004.

M. S. Cayard and R. D. Kane, Evaluation of various methods of reducing the duration of SSC qualification testing, Corrosion, vol.97

A. D. Gingell and X. Garat, Observations of damage modes as a function of microstructure during NACE TM0177-96 tensile testing of API 5L grade X60 linepipe steel, NACE International, 1999.

C. Weng and R. Chen, Acoustic emission characterization of steel in H 2 S solution subjected to tensile load, Journal of Chinese Institute of Engineers, vol.16, pp.489-498, 1993.

C. Weng and R. Chen, Acoustic emission characteristics of a high-strength steel subjected to corrosive hydrogen sulfide solution, Journal of the Chinese Institute of Engineers, vol.16, pp.195-202, 1993.

S. Y. Tsai and H. C. Shih, Correlation between acoustic emission signals and hydrogen permeation in high-strength, low alloy steel cracking in wet H 2 S, Journal of the Electrochemical Society, vol.145, pp.1968-1976, 1998.

S. Amami, P. Marchand, S. Duval, X. Longaygue, M. Fregonese et al., NACE International Standard Test Method NACE TM0177-96, Laboratory testing of metals for resistance to specifics forms of environmental cracking in H 2 S environments, Environmental Degradation of Engineering Materials, 2002.

J. W. Martin, J. Kittel, T. Cassagne, and C. Bosch, Hydrogen Induced Cracking (HIC) -Laboratory testing assessment of low allow steel linepipe, 2008.