Server maintenance is scheduled for Saturday, December 21st between 6am-10am CST.

During that time, parts of our website will be affected until maintenance is completed. Thank you for your patience.

Search
Filters
Close

Use GIVING24 at checkout to save 20% on eCourses and books (some exclusions apply)!

07611 Dependence of PWSCC of Ni Base Alloys on Their Oxidation Behavior

Product Number: 51300-07611-SG
ISBN: 07611 2007 CP
Author: Fabio Scenini, Robert A. Cottis, Roger C. Newman, and Richard J. Jacko
Publication Date: 2007
$0.00
$20.00
$20.00
Although in the literature it is a common belief that electropolishing mitigates PWSCC, it is shown that electropolished Alloy 600 samples tested in hydrogenated steam undergo internal oxidation while mechanically polished ones oxidize externally. This has implications for SCC initiation, which has been tested with different surface preparations (electropolishing and mechanical polishing) using RUB and Cring samples. The results showed a systematic trend that mechanically polished surfaces are more resistant to PWSCC than electropolished. The mechanism involved in this increased resistance is thought to be related to short circuit diffusion of Cr to the surface which promotes external rather than internal oxidation. The role of compressive stress induced by mechanical polishing is a much less likely explanation of the observed effects. Mechanical polishing does not suppress PWSCC completely because if the external oxide layer breaks, the exposed material continues oxidizing internally. These results suggest that the effect of electropolishing needs re-evaluation.
Although in the literature it is a common belief that electropolishing mitigates PWSCC, it is shown that electropolished Alloy 600 samples tested in hydrogenated steam undergo internal oxidation while mechanically polished ones oxidize externally. This has implications for SCC initiation, which has been tested with different surface preparations (electropolishing and mechanical polishing) using RUB and Cring samples. The results showed a systematic trend that mechanically polished surfaces are more resistant to PWSCC than electropolished. The mechanism involved in this increased resistance is thought to be related to short circuit diffusion of Cr to the surface which promotes external rather than internal oxidation. The role of compressive stress induced by mechanical polishing is a much less likely explanation of the observed effects. Mechanical polishing does not suppress PWSCC completely because if the external oxide layer breaks, the exposed material continues oxidizing internally. These results suggest that the effect of electropolishing needs re-evaluation.
Product tags
Also Purchased
Picture for 07623 Corrosion and Inhibition for 0.5% Chromium Steel
Available for download

07623 Corrosion and Inhibition for 0.5% Chromium Steel

Product Number: 51300-007623-SG
ISBN: 07623 2007 CP
Author: Huey J. Chen and Yue Chen
Publication Date: 2007
$20.00
Picture for 07604 Hydrothermal Formation and Distribution of Noble Metal Particles on Type 304 SS Surface in Hig
Available for download

07604 Hydrothermal Formation and Distribution of Noble Metal Particles on Type 304 SS Surface in High Temperature Water

Product Number: 51300-07604-SG
ISBN: 07604 2007 CP
Author: Young-Jin Kim, Peter L. Andresen, Samson Hettiarachchi, and Thomas P. Diaz
Publication Date: 2007
$20.00
Picture for 07617 “I PUT IT IN, BUT WHERE DOES IT GO?” – THE FATE OF CORROSION INHIBITORS IN MULTIPHASE SYSTEMS
Available for download

07617 “I PUT IT IN, BUT WHERE DOES IT GO?” – THE FATE OF CORROSION INHIBITORS IN MULTIPHASE SYSTEMS

Product Number: 51300-07617-SG
ISBN: 07617 2007 CP
Author: David I. Horsup, J. Caleb Clark, Bernard P. Binks, Paul D.I. Fletcher, and Jake T. Hicks
Publication Date: 2007
$20.00