Menu
Search
Filters
Close
Menu

51316-7685-Effect of Brine Ionic Strength on Sulfide Stress Cracking Resistance of High Strength Low Alloy Steel

Picture for Effect of Brine Ionic Strength on Sulfide Stress Cracking Resistance of High Strength Low Alloy Stee
Available for download
Product Number: 51316-7685-SG
ISBN: 7685 2016 CP
Author: Ray Case
Publication Date: 2016
$0.00
$20.00
$20.00
The present study evaluates the effect of the brine’s ionic strength upon the sulfide stress cracking (SSC) resistance. The experimental design considers the molar content of H2S in the associated gas and the NaCl concentration in the test brine as the independent variables. All tests are performed at room temperature and 1 atmosphere pressure and the solutions are kept at constant pH 4.5 through the experiments. The SSC resistance evaluation is performed on grade C110 low alloy steel by means of the notched tensile slow strain rate (NTSSRT) method to assess the value of the threshold stress intensity for SSC (KIth). The results indicate that at constant brine ionic strength the SSC cracking resistance decreases monotonically with increase of the activity of dissolved H2S. Furthermore the experiments show that at constant dissolved H2S activity the KIth values increase with the brine ionic strength.The results suggest that the dissolved H2S activity alone does not describe the relationship between the sour environment and the susceptibility to SSC. Other parameters such as dissolved H+ in the steel must be considered.
The present study evaluates the effect of the brine’s ionic strength upon the sulfide stress cracking (SSC) resistance. The experimental design considers the molar content of H2S in the associated gas and the NaCl concentration in the test brine as the independent variables. All tests are performed at room temperature and 1 atmosphere pressure and the solutions are kept at constant pH 4.5 through the experiments. The SSC resistance evaluation is performed on grade C110 low alloy steel by means of the notched tensile slow strain rate (NTSSRT) method to assess the value of the threshold stress intensity for SSC (KIth). The results indicate that at constant brine ionic strength the SSC cracking resistance decreases monotonically with increase of the activity of dissolved H2S. Furthermore the experiments show that at constant dissolved H2S activity the KIth values increase with the brine ionic strength.The results suggest that the dissolved H2S activity alone does not describe the relationship between the sour environment and the susceptibility to SSC. Other parameters such as dissolved H+ in the steel must be considered.
Product tags
Also Purchased
Picture for Materials Selection for Use in Hydrochloric Acid
Available for download

51316-7680-Materials Selection for Use in Hydrochloric Acid

Product Number: 51316-7680-SG
ISBN: 7680 2016 CP
Author: Ajit Mishra
Publication Date: 2016
$20.00
Picture for Comparison of Corrosion Behavior of X65 1Cr and 5Cr Steels in Water-Containing Supercritical CO2 En
Available for download

51316-7681-Comparison of Corrosion Behavior of X65 1Cr and 5Cr Steels in Water-Containing Supercritical CO2 Environments with SO2/O2

Product Number: 51316-7681-SG
ISBN: 7681 2016 CP
Author: Yong Hua
Publication Date: 2016
$20.00
Picture for Application of 3D Metrology Technology in Inspection corrosion mapping and failure analysis
Available for download

51316-7672-Application of 3D Metrology Technology in Inspection corrosion mapping and failure analysis

Product Number: 51316-7672-SG
ISBN: 7672 2016 CP
Author: T. J. Prewitt
Publication Date: 2016
$20.00
Categories
Industry
Recently viewed
Popular tags
View all

Association for Materials Protection and Performance

© AMPP All Rights Reserved.
Membership Terms of Content Use
Contact Customer Support