Techniques for testing and monitoring the cathodic disbondment of organic coatings: An overview of major obstacles and innovations

•Elaborating major technical obstacles in measuring the cathodic disbondment of coatings.•Critically reviewing major current techniques including the CDT, EIS, LEIS, SKP and SAM.•Introducing a recent innovative approach based on a multi-electrode array method.•Illustrating the in situ measurement of...

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Bibliographic Details
Published inProgress in organic coatings Vol. 105; pp. 163 - 175
Main Authors Mahdavi, Fariba, Forsyth, Maria, Tan, Mike Y.J.
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 01.04.2017
Elsevier BV
Subjects
Acoustic microscopes
Assessment techniques
Barriers
Buried pipes
Buried structures
Cathodic coating (process)
Cathodic disbondment
Cathodic protection
Coatings
Corrosion
Corrosion prevention
Electrochemical impedance spectroscopy
Electrochemical measurements
In situ measurement
Monitoring
Monitoring techniques
Organic coatings
Pipelines
Protective coatings
Scanning
Scanning acoustic microscopy
Scanning methods
Shielding
Steel pipes
Steel structures
Electrochemical measurements
Assessment techniques
Monitoring techniques
Coatings
Scanning methods
Cathodic disbondment
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Summary:•Elaborating major technical obstacles in measuring the cathodic disbondment of coatings.•Critically reviewing major current techniques including the CDT, EIS, LEIS, SKP and SAM.•Introducing a recent innovative approach based on a multi-electrode array method.•Illustrating the in situ measurement of cathodic disbondment using electrode arrays. Coatings in conjunction with cathodic protection (CP) have been widely used for protecting buried metallic structures such as steel pipelines against corrosion. A drawback of the combined use of these two techniques is cathodic disbondment of coatings, i.e. the loss of adhesion between a coating and its metal substrate due to the products of cathodic reactions that take place at the coating and metal interface. Disbonded coatings provide easy lateral paths for corrosive species to reach the metal surface while simultaneously shielding cathodic protection currents from reaching the metal substrate. Currently, corrosion under disbonded coatings remains as a major issue affecting the integrity of civil and industrial infrastructures such as buried pipelines; therefore the ability of testing and monitoring coating disbondment is important for ensuring the durability of these infrastructures. This paper provides an overview of major innovative efforts made over the past several decades to overcome technical obstacles in testing and monitoring the cathodic disbondment of coatings. The limitations of various techniques including the standard cathodic disbondment test (CD test), electrochemical impedance spectroscopy (EIS), localized electrochemical spectroscopy (LEIS), scanning Kelvin probe (SKP) and scanning acoustic microscopy (SAM), have been critically reviewed. The recent application of multi-electrode array method has been discussed to illustrate an innovative approach aimed at addressing major difficulties in the in situ measurement and monitoring of cathodic disbondment of coatings.
ISSN:0300-9440
1873-331X
DOI:10.1016/j.porgcoat.2016.11.034