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Techniques for corrosion monitoring

Edited by L Yang, Southwest Research Institute (SwRI), USA

Woodhead Publishing Series in Metals and Surface Engineering No. 23

 - provides a comprehensive analysis of the range of techniques for corrosion monitoring
 - specific case studies are included to highlight the main issues
 - a valuable reference guide for engineers, scientific and technical personnel who deal with corrosion
 - shortlisted for the Diagram prize 2009

Corrosion monitoring techniques play a key role in efforts to combat corrosion, which can have major economic and safety implications. This important book starts with a review of corrosion fundamentals and provides a four-part comprehensive analysis of a wide range of methods for corrosion monitoring, including practical applications and case studies.

The first part of the book reviews electrochemical techniques for corrosion monitoring, such as polarization techniques, potentiometric methods, electrochemical noise and harmonic analyses, galvanic sensors, differential flow through cells and multielectrode systems. A second group of chapters analyses the physical or chemical methods of corrosion monitoring. These include gravimetric, radioactive tracer, hydrogen permeation, electrical resistance and rotating cage techniques. Part II also includes a chapter on the innovative nondestructive evaluation technologies that can be used to monitor corrosion. Part III examines corrosion monitoring in special environments such as microbial systems, concrete and soil, and remote monitoring and model predictions. A final group of chapters includes various case studies covering ways in which corrosion monitoring can be applied to engine exhaust systems, cooling water systems, pipelines, equipment in chemical plants, and other real world systems.

With its distinguished editor and international team of contributors, Techniques for corrosion monitoring is a valuable reference guide for engineers and scientific and technical personnel who deal with corrosion in such areas as automotive engineering, power generation, water suppliers and the petrochemical industry.

ISBN 1 84569 187 3
ISBN-13: 978 1 84569 187 5
February 2008
712 pages  234 x 156mm  hardback  
£185.00 / US$315.00 / €220.00

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An e-book version of this title is available to purchase as part of a Collection or Pick n Mix or by Chapter. Visit Woodhead Publishing Online

About the editor

Dr Lietai Yang is a leading authority on corrosion monitoring. He works at the Southwest Research Institute in Texas, one of the major centres of corrosion research in the US.

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Contents

PART 1 ELECTROCHEMICAL TECHNIQUES FOR CORROSION MONITORING
PART 2 OTHER PHYSICAL OR CHEMICAL METHODS FOR CORROSION MONITORING
PART 3 CORROSION MONITORING IN PARTICULAR ENVIRONMENTS AND OTHER ISSUES
PART 4 APPLICATIONS AND CASE STUDIES

Introduction

Corrosion fundamentals and evaluation techniques
G A Cragnolino, Southwest Research Institute, USA
 - Introduction
 - General corrosion
 - Passivity and localized corrosion
 - Microbially influenced corrosion
 - Flow-assisted corrosion and erosion corrosion
 - Stress corrosion cracking
 - Corrosion fatigue
 - Hydrogen embrittlement
 - Characterization techniques
 - References

PART 1 ELECTROCHEMICAL TECHNIQUES FOR CORROSION MONITORING

Electrochemical polarization technique
S Papavinasam, CANMET Materials Technology Laboratory, Canada
 - Introduction
 - Electrochemical nature of corrosion
 - Energy-potential-current relationship
 - Electrochemical polarization techniques for determining corrosion rates
 - Conversion of Icorr into corrosion rate
 - Measurement of corrosion rate by polarization methods in the laboratory
 - Measurement of corrosion rate by polarization methods in the field
 - General limitations of polarization methods of determining corrosion rate
 - Applications of polarization methods in the field
 - Future trends
 - Further information
 - References

Electrochemical noise methods and harmonic analysis
R Cottis, University of Manchester, UK
 - Introduction to Electrochemical Noise
 - Measurement of EN
 - Alternative EN measurement methods
 - Interpretation of EN
 - Comparison of EN and polarization resistance for the estimation of methods of measuring corrosion rate
 - Practical applications
 - Harmonic distortion analysis
 - Electrochemical frequency modulation
 - References

Zero resistance ammetry and galvanic sensors
R D Klassen and P R Roberge, Royal Military College of Canada, Canada
 - Introduction
 - Galvanic current
 - ZRA measurement circuitry
 - Applications
 - Future trends
 - References

The differential flow through cell technique
B Yang, Honeywell, USA
 - Introduction
 - Principles of the Differential Flow Cell (DFC) method
 - Data interpretation and use
 - Factors to consider on interpreting LCM readings
 - Applications
 - Future trends
 - References

Potentiometric methods for measuring localised corrosion
P Shukla, Southwest Research Institute, USA
 - Introduction
 - Thermodynamics of corrosion
 - Glavanic series of alloys
 - Potentiometric methods for measuring localized corrosion
 - References

Multielectrode systems
L Yang, Southwest Research Institute, USA
 - Introduction
 - Earlier multielectrode systems for high throughput corrosion studies
 - Uncoupled multielectrode arrays
 - Coupled multielectrode systems for corrosion detections
 - Coupled multielectrode arrays for spatiotemporal corrosion and electrochemical studies
 - Coupled multielectrode arrays for spatiotemporal corrosion measurements
 - Coupled multielectrode array sensors with simple output parameters for corrosion monitoring
 - Minimizing effects of internal currents, electronic-conducting deposits and crevices on performance of CMAS probes
 - Validation of corrosion rate measurement using coupled multielectrode array sensors
 - Applications of coupled multielectrode array sensor for real-time corrosion monitoring
 - Limitations of multielectrode systems
 - Summary
 - References

PART 2 OTHER PHYSICAL OR CHEMICAL METHODS FOR CORROSION MONITORING

Gravimetric techniques
K Chiang and T Mintz, Southwest Research Institute, USA
 - Introduction
 - Thermogravimetric analysis (TGA) techniques
 - Quartz crystal microbalance (QCM) technique
 - Gravimetric techniques
 - Summary
 - References

Radioactivity methods
D Eberle, Southwest Research Institute, USA
 - Principle and history
 - Assumptions
 - Labeling methods
 - Potential isotopes
 - Calibration and conversion to corrosion units
 - Applications and limitations
 - Sources of further information
 - References

Electrical resistance techniques
C S Brossia, CC Technologies, USA
 - Introduction and background
 - Sensing probe designs
 - Examples of application and use
 - Sensing probe electronics and instrumentation
 - Variations on the ER theme
 - Advantages and limitations
 - Summary and conclusions
 - References

Nondestructive evaluation methods for corrosion monitoring
G Light, Southwest Research Institute, USA
 - Introduction
 - NDE methods for corrosion monitoring
 - Future trends
 - References

Hydrogen permeation methods
F Dean, Ion Science Ltd, UK
 - Introduction
 - Scenarios leading to hydrogen permeation and detection
 - A measurement of hydrogen activity based on flux measurement
 - Comments pertaining to particular flux measurement applications
 - References

Rotating cage and jet impingement techniques
S Papavinasam, CANMET Materials Technology Laboratory, Canada
 - Introduction
 - Rotating cage
 - Jet impingement
 - Prediction from laboratory test result to field application
 - Future trends
 - Further information
 - References

PART 3 CORROSION MONITORING IN PARTICULAR ENVIRONMENTS AND OTHER ISSUES

Corrosion monitoring in microbial environments
P Cristiani, Cesiricerca S.P.A, Italy
 - Introduction
 - Corrosion monitoring applied to MIC
 - Electrochemical sensors for the evaluation of MIC risk
 - Integrated on-line monitoring systems
 - Case histories
 - Summary
 - References

Corrosion monitoring in concrete
P Schießl, Technical University of Munich, Germany and C Dauberschmidt, Ingenieurbuero Schiessl, Germany
 - General
 - Deterioration mechanisms for corrosion in concrete
 - Assessment of corrosion and corrosion risk in concrete
 - Sensors for corrosion monitoring
 - Data evaluation
 - Applications
 - Conclusions
 - References

Corrosion monitoring in soil
N Khan, Saudi Aramco, Saudi Arabia
 - Introduction
 - Types of soil corrosion probes
 - Electrical resistance probes
 - Monitoring & data interpretation
 - Effectiveness criteria
 - References

Corrosion monitoring under coatings
F Gui and C S Brossia, CC Technologies, USA
 - Introduction
 - Corrosion monitoring methods under coatings
 - Summary and conclusions
 - References

Corrosion monitoring under cathodic protection conditions
A Carlile, NuStar LP, USA
 - Introduction
 - Cathodic protection monitoring
 - Cathodic protection monitoring techniques
 - Cathodic protection monitoring technology
 - Effectiveness of corrosion control after installation and monitoring
 - Monitoring results and maintenance opportunities
 - Value of structure increases
 - Less replacement and maintenance cost for the company
 - Cathodic protection monitoring as required by USA government as a minimum requirement and other considerations
 - Monitoring frequency helps determine effectiveness of corrosion program
 - NACE recommendations
 - Cathodic protection monitoring relative to unusual or at risk environments
 - Field data to aid in cathodic protection monitoring
 - Data management
 - Overview
 - References

Remote monitoring and computer applications
R Smalling and L Blankenstein, American Innovations, USA
 - Introduction
 - Data considerations
 - Communications networks
 - Application specific requirements
 - NOC and supporting systems
 - References

Models for predicting corrosion rates
N Sridhar, Det Norske Veritas, USA
 - Introduction
 - Empirical models of general corrosion in natural environments
 - Empirical models of general corrosion in process environments
 - Empirical models for flow assisted corrosion
 - Empirical models for localized corrosion
 - Statistical approaches in modelling localized corrosion
 - Artificial neural network type models
 - Expert systems
 - Thermodynamic models
 - Mechanistic models of general corrosion
 - Mechanistic models of localized corrosion
 - Future trends
 - Sources of further information
 - References

PART 4 APPLICATIONS AND CASE STUDIES

Corrosion monitoring in engine exhaust systems
M Kass, Oak Ridge National Laboratory
 - Introduction
 - Reciprocating engine combustion and exhaust chemistry
 - Formation of corrosion species
 - Monitoring techniques
 - Current issues and future trends
 - References

Corrosion monitoring in cooling water systems using differential flow through cell techniques
B Yang, Honeywell, USA
 - Introduction
 - Corrosion inhibition program selection and optimization
 - Program optimization at a chemical processing plant
 - Program optimization using pilot cooling tower tests
 - Refinery hydrocarbon leak detection and control
 - Refinery leak detection and program optimization
 - Admiralty brass corrosion control in cooling water system using brackish water as make-up
 - References

Corrosion monitoring in the pulp and paper industry
F Almeraya -Calderón, C V Orozco, C Gaona-Tiburcio, T A Borunda, J Chacón-Nava and A Martínez-Villafañe, Advanced Materials Research Center, CIMAV, Mexico
 - Introduction
 - Experimental procedures
 - Results and analysis
 - Conclusions
 - Acknowledgements
 - References

Corrosion monitoring in chemical plant using electrochemical noise methods
M Miyazawa, Mitsubishi Chemical Corporation, Japan
 - Introduction
 - Investigation
 - Monitoring and corrosion control
 - Conclusion
 - References

Corrosion monitoring under cathodic protection conditions using coupled multielectrode probe techniques
X Sun, Corr Instruments LLC, USA
 - Introduction
 - Corrosion rate measurements for cathodically protected systems using CMAS probes
 - Measurements of localized corrosion rates of carbon steel in simulated seawater
 - Measurements of localized corrosion rates of carbon steel in concrete
 - Measurements of localized corrosion rates of cathodically protected carbon steel in soil
 - Measurements of localized corrosion rates of cathodically protected carbon steel in drinking water
 - Reference

Measuring corrosion beneath organic coatings using wire beam electrodes
Q Zhong, Shanghai University, China
 - Introduction
 - Mechanism
 - Wire beam electrode and its working mechanism
 - Application of wire beam electrode
 - References

Corrosion monitoring in pipelines using the field signature method inspection tool (FSM-IT)
N Bich, CorrCana Technology Inc, Canada
 - Introduction
 - Case studies
 - Acknowledgements
 - References