Hydrogen induced cracking (HIC) testing of low alloy steel in sour environment: Impact of time of exposure on the extent of damage

Kittel, Jean; Smanio, Véronique; Frégonèse, Marion; Garnier, L.; Lefebvre, Xavier

doi:10.1016/j.corsci.2009.11.044

Cited by 89 publications

(40 citation statements)

References 26 publications

(14 reference statements)

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“…Sosa [6], Cabrera-Sierra [7], Kittel [8], Hernández-Espejel [9] and Zhou [10] reported that the protective property of the sulphide film depended on the factors such as the H 2 S partial pressure (PH 2 S), temperature and pH. The sulphide layer performed better protective property in the acid solution than that in the neutral solution under 1 bar H 2 S at ambient temperature [8,11]. However, Tang [12] and Kim [13] reported that the corrosion rate and the hydrogen permeation rate of carbon steel increased with decreasing pH values of the solution under 1 bar H 2 S because the solubility of sulphide increased with decreasing pH value.…”

Section: Introductionmentioning

confidence: 98%

“…The corrosion scale acted as a diffusion barrier for the species involved in the corrosion process can slow down the corrosion process and prevent the underlying steel from further dissolution [5]. Sosa [6], Cabrera-Sierra [7], Kittel [8], Hernández-Espejel [9] and Zhou [10] reported that the protective property of the sulphide film depended on the factors such as the H 2 S partial pressure (PH 2 S), temperature and pH. The sulphide layer performed better protective property in the acid solution than that in the neutral solution under 1 bar H 2 S at ambient temperature [8,11].…”

Section: Introductionmentioning

confidence: 99%

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Effects of environmental conditions on hydrogen permeation of X52 pipeline steel exposed to high H2S-containing solutions

et al. 2014

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Section: Introductionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

Effects of environmental conditions on hydrogen permeation of X52 pipeline steel exposed to high H2S-containing solutions

et al. 2014

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“…It is believed that hydrogen atoms produced due to surface corrosion of the steel diffuse into it through microstructural defects that exist in the material [38]. The accumulation of a critical amount of hydrogen in the metal defeats results in HIC initiation and propagation, as recently reported by Kittel et al [39].…”

Section: Surface Characterizationsmentioning

confidence: 59%

Corrosion Behavior of API X100 Steel Material in a Hydrogen Sulfide Environment

Okonkwo

Shakoor

Benamor

et al. 2017

Metals

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Abstract:Recently, the API X100 steel has emerged as an important pipeline material for transportation of crude oil and natural gas. At the same time, the presence of significant amounts of hydrogen sulfide (H 2 S) in natural gas and crude oil cause pipeline materials to corrode, which affects their integrity. In this study, the effect of H 2 S concentration on the corrosion behavior of API X100 in 3.5% NaCl solution is presented. The H 2 S gas was bubbled into saline solutions for different durations, and the corrosion tests were then performed using potentiodynamic polarization and electrochemical impedance spectroscopy (EIS). X-ray photoelectron spectroscopy (XPS), X-ray diffraction (XRD), atomic force microscopy (AFM), and scanning electron microscopy (SEM) techniques were used to characterize the corroded surface. The results indicate that the corrosion rate of API X100 steel decreases with increasing H 2 S bubbling time due to the increase in H 2 S concentration in 3.5% NaCl solutions. It is noticed that an accumulation of a critical amount of hydrogen in the metal can result in hydrogen-induced crack initiation and propagation. It was further observed that, when the stress limit of a crystalline layer is exceeded, micro-cracking of the formed protective sulfide layer (mackinawite) occurs on the API X100 steel surface, which may affect the reliability of the pipeline system.

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“…These fractures can be the beginning of more serious damage for the integrity of API 5L X52 steel, when exposed to environments with high hydrogen sulfide contents. Under these conditions, the development of some characteristic corrosion processes such as hydrogen induced cracking (HIC), sulfide stress cracking (SSC) and stress-oriented-hydrogen-induced cracking (SOHIC) [32] [33] [34] has been observed. In this particular case and according to what has been established by some researchers, this corrosion type would seem to be the most common failure for the steel, being the most dangerous mechanism for a metal fracture, as it can occur instantaneously without previous warning [21].…”

Section: Discussionmentioning

confidence: 99%

Corrosion Behavior of API 5L X52 Steel under High Concentrations of H<sub>2</sub>S/CO<sub>2</sub> Gases

Gayosso¹,

Olivares²,

Fragoso³

et al. 2016

MSA

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In the present work, the susceptibility of API 5L X52 steel to corrosion processes was evaluated in the presence of high contents of hydrogen sulfide and carbon dioxide. Gravimetric tests and surface analyses were carried out to establish both the corrosion rate and damage type exhibited by the metal. The obtained results indicate that the hydrogen sulfide is the most active gas in the corrosion processes that took place, quite above carbon dioxide. The main observed corrosion products were iron sulfides and the typical damage associated with hydrogen sulfide presence was Sulfide Stress Cracking (SSC). The surface damage evidences the presence of cracks with considerable magnitude and metal loss as consequences of the corrosion processes. Likewise, the presence of oxygen in the system modifies the displayed corrosion type, where corrosion products such as iron oxides and reduction in the number and extent of cracks are observed. On the other hand, the addition of a film-forming corrosion inhibitor based on modified imidazolines eliminates completely the development of cracks, although under certain test conditions, it can favor localized pitting corrosion.

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Hydrogen induced cracking (HIC) testing of low alloy steel in sour environment: Impact of time of exposure on the extent of damage

Cited by 89 publications

References 26 publications

Effects of environmental conditions on hydrogen permeation of X52 pipeline steel exposed to high H2S-containing solutions

Effects of environmental conditions on hydrogen permeation of X52 pipeline steel exposed to high H2S-containing solutions

Corrosion Behavior of API X100 Steel Material in a Hydrogen Sulfide Environment

Corrosion Behavior of API 5L X52 Steel under High Concentrations of H<sub>2</sub>S/CO<sub>2</sub> Gases

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Hydrogen induced cracking (HIC) testing of low alloy steel in sour environment: Impact of time of exposure on the extent of damage

Cited by 89 publications

References 26 publications

Effects of environmental conditions on hydrogen permeation of X52 pipeline steel exposed to high H2S-containing solutions

Effects of environmental conditions on hydrogen permeation of X52 pipeline steel exposed to high H2S-containing solutions

Corrosion Behavior of API X100 Steel Material in a Hydrogen Sulfide Environment

Corrosion Behavior of API 5L X52 Steel under High Concentrations of H&lt;sub&gt;2&lt;/sub&gt;S/CO&lt;sub&gt;2&lt;/sub&gt; Gases

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Corrosion Behavior of API 5L X52 Steel under High Concentrations of H<sub>2</sub>S/CO<sub>2</sub> Gases