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)!

51314-3803-The Ultrasonically Induced Cavitation Corrosion of UNS N08825 in Seawater

Product Number: 51314-3803-SG
ISBN: 3803 2014 CP
Author: Abdul Hameed Al-Hashem
Publication Date: 2014
$0.00
$0.00
$0.00
A cavitation facility was used to study the cavitation corrosion behavior of UNS N08825  in seawater. The work included measurements of mass loss in the presence and absence of cavitation and free corrosion potentials .  The cavitation tests were made at a frequency of 20 KHz and at temperatures of 250C.  Cavitation conditions caused an electrochemically active shift in the free corrosion potential for UNS N08825. Cavitation also increased the rate of mass loss of this alloy by several orders of magnitude with respect to stagnant conditions.  Another set of cavitation experiments was also carried out for this alloy in a nonconductive medium in order to distinguish between the mechanical and electrochemical factors that contribute to metal loss. Results indicated that the mechanical factor has an overriding role of metal loss of this alloy. Cavitation made the surface of this alloy very rough exhibiting large cavity pits in the middle region of the attacked area as revealed by the scanning electron microscope (SEM).  Mechanical factors were determined to be the leading cause of metal loss.Keywords: Incolloy 825 seawater distilled water metal loss cavity pits. 
A cavitation facility was used to study the cavitation corrosion behavior of UNS N08825  in seawater. The work included measurements of mass loss in the presence and absence of cavitation and free corrosion potentials .  The cavitation tests were made at a frequency of 20 KHz and at temperatures of 250C.  Cavitation conditions caused an electrochemically active shift in the free corrosion potential for UNS N08825. Cavitation also increased the rate of mass loss of this alloy by several orders of magnitude with respect to stagnant conditions.  Another set of cavitation experiments was also carried out for this alloy in a nonconductive medium in order to distinguish between the mechanical and electrochemical factors that contribute to metal loss. Results indicated that the mechanical factor has an overriding role of metal loss of this alloy. Cavitation made the surface of this alloy very rough exhibiting large cavity pits in the middle region of the attacked area as revealed by the scanning electron microscope (SEM).  Mechanical factors were determined to be the leading cause of metal loss.Keywords: Incolloy 825 seawater distilled water metal loss cavity pits. 
Product tags
Also Purchased
Picture for Forensic Analysis of Failed Pipe: Microbiological Investigations
Available for download

51314-3789-Forensic Analysis of Failed Pipe: Microbiological Investigations

Product Number: 51314-3789-SG
ISBN: 3789 2014 CP
Author: John Kilbane
Publication Date: 2014
$0.00
Picture for Corrosion Management and Mechanism Study on SAGD Brackish Water System
Available for download

51314-3809-Corrosion Management and Mechanism Study on SAGD Brackish Water System

Product Number: 51314-3809-SG
ISBN: 3809 2014 CP
Author: Jack Whittaker
Publication Date: 2014
$0.00
Picture for Case Study of a Corrosion Investigation to Support Process Modification in Chemical Plants
Available for download

51314-3798-Case Study of a Corrosion Investigation to Support Process Modification in Chemical Plants

Product Number: 51314-3798-SG
ISBN: 3798 2014 CP
Author: Takao Ohtsu
Publication Date: 2014
$0.00