A novel electrochemically integrated multi-electrode array namely the wire beam electrode(WBE) in combination with noise signatures analysis has been designed to monitor pittingcorrosion of one of the best corrosion resistance ferrous alloys, stainless steel type 316L.From the direct correlation of electrochemical potential noise signatures and galvanic currentdistribution maps during pitting corrosion processes, two characteristic noise patterns wereobserved prior to stable pit formation: (i) the characteristic ‘peak’ of rapid potential transient,towards less negative direction, followed by recovery (termed noise signature I) was found tocorrelate with the disappearance of unstable anode; (ii) the characteristic noise pattern ofquick potential changes towards less negative direction followed by no recovery (termed noisesignature II) was found to correspond with the massive disappearance of minor anodes leadingto formation of highly localized major anodes in the galvanic current distribution maps.
History
Journal
Chiangmai journal of science
Volume
32
Issue
3
Pagination
521 - 527
Publisher
Chiang Mai University, Faculty of Science
Location
Chiang Mai, Thailand
ISSN
1513-489X
Language
eng
Notes
This paper was presented at Smart-Mat’04 : The International Conference on Smart Materials 2004
Publication classification
C3.1 Non-refereed articles in a professional journal