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

51312-01296-Severe MIC Pitting Corrosion of 304L Stainless Steel Components After A Relatively Short Period of E

Product Number: 51312-01296-SG
ISBN: 01296 2012 CP
Author: Weiji Huang
Publication Date: 2012
$0.00
$20.00
$20.00
Severe MIC Pitting Corrosion of 304L Stainless Steel Components After A Relatively Short Period of Exposure to Natural Seawater Weiji Huang Fang Cao* John Lafontaine and Jennifer Hornemann** ExxonMobil Development Company *ExxonMobil Research and Engineering Company **ExxonMobil Upstream Research Company Abstract Severe pitting corrosion was observed on various 304L stainless steel components after being submerged in natural seawater during a hurricane flood for couple of months. Corrosion morphologies were studied using optical and scanning electron microscope. The trapped water and particulates in the components were cultured in the lab to determine the types and amount of the bacteria. The findings indicated that the MIC (microbiological influenced corrosion) was primarily responsible for this unusual localized rapid corrosion. It is believed that sessile bacteria in biofilm consortia on steel surfaces created local acidic environments which accelerated the pitting corrosion kinetics resulting in deep pits.
Severe MIC Pitting Corrosion of 304L Stainless Steel Components After A Relatively Short Period of Exposure to Natural Seawater Weiji Huang Fang Cao* John Lafontaine and Jennifer Hornemann** ExxonMobil Development Company *ExxonMobil Research and Engineering Company **ExxonMobil Upstream Research Company Abstract Severe pitting corrosion was observed on various 304L stainless steel components after being submerged in natural seawater during a hurricane flood for couple of months. Corrosion morphologies were studied using optical and scanning electron microscope. The trapped water and particulates in the components were cultured in the lab to determine the types and amount of the bacteria. The findings indicated that the MIC (microbiological influenced corrosion) was primarily responsible for this unusual localized rapid corrosion. It is believed that sessile bacteria in biofilm consortia on steel surfaces created local acidic environments which accelerated the pitting corrosion kinetics resulting in deep pits.
Product tags
Also Purchased
Picture for 98285 CORROSION ENGINEERING ASPECTS REGARDING
Available for download

98285 CORROSION ENGINEERING ASPECTS REGARDING MIC RELATED FAILURES ON STAINLESS STEELS

Product Number: 51300-98285-SG
ISBN: 98285 1998 CP
Author: M. H. W. RENNER
$20.00
Picture for 99159 COMPARISON OF MIC PIT MORPHOLOGY WITH
Available for download

99159 COMPARISON OF MIC PIT MORPHOLOGY WITH NON-MIC CHLORIDE INDUCED PITS IN TYPES 304/304L/E308 STAINLESS STEEL BASE METAIJWELDS

Product Number: 51300-99159-SG
ISBN: 99159 1999 CP
Author: Y. Chung and L. K. Thomas
$20.00