Study of the electrochemical noise generated by the mild steel/zinc-rich paint/NaCl solution system
Author:
Publisher
Elsevier BV
Subject
Materials Chemistry,Organic Chemistry,Surfaces, Coatings and Films,General Chemical Engineering
Reference25 articles.
1. Investigation of electrochemical processes by an electrochemical noise analysis. Theoretical and experimental aspects in potentiostatic regime
2. An Examination of Current Fluctuations during Pit Initiation in Fe‐Cr Alloys
3. The measurement of localized corrosion using electrochemical noise
4. The measurement of corrosion using electrochemical noise
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3. Electrochemical Noise Analysis of Pure Iron Corrosion by Wavelet Transformation with Channel Flow Electrode;Electrochemistry;2008
4. THE USE OF ELECTROCHEMICAL NOISE ANALYSIS ON CORRODING SYSTEMS;Fluctuation and Noise Letters;2004-09
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