Corrosion: Aqueous Processes and Passive Films
- 1st Edition, Volume 23 - February 16, 2016
- Editor: J C Scully
- Language: English
- Paperback ISBN:9 7 8 - 1 - 4 8 3 2 - 0 6 6 8 - 4
- eBook ISBN:9 7 8 - 1 - 4 8 3 2 - 2 0 1 1 - 6
Corrosion: Aqueous Processes and Passive Films deals with the aqueous corrosion of passive films. Pitting and stress corrosion are discussed at length, along with repassivation… Read more
Corrosion: Aqueous Processes and Passive Films deals with the aqueous corrosion of passive films. Pitting and stress corrosion are discussed at length, along with repassivation kinetics and the corrosion resistance of amorphous (or glassy) alloys. The corrosion of anodized films and dental alloys are also considered. Comprised of seven chapters, this volume begins with a discussion on pitting corrosion and three types of pitting, namely, electrochemical depassivation, chemical depassivation, and etch pitting. The reader is then introduced to the theoretical aspects of the corrosion of glassy alloys as well as their resistance to uniform corrosion; localized corrosion; stress corrosion cracking and hydrogen embrittlement; and applications of corrosion-resistant glassy alloys. Subsequent chapters explore stress corrosion cracking; repassivation kinetics; the nature of anodic films on aluminum, with emphasis on the anodic polarization of aluminum in appropriate solutions; and the corrosion of dental materials. The book concludes by evaluating the use of alternating current techniques in the study of corrosion and passivity. This monograph will be of interest to engineers, metallurgists, and materials scientists.
List of Contributors
Preface
1 Pitting Corrosion
I. Localized Corrosion
II. Pitting Corrosion
References
2 The Corrosion Resistance of Glassy Alloys
I. Introduction
II. Theoretical Aspects of the Corrosion of Glassy Alloys
III. Resistance to Uniform Corrosion
IV. Localized Corrosion
V. Stress Corrosion Cracking and Hydrogen Embrittlement
VI. Applications
VII. Acknowledgements
References
3 Stress Corrosion Cracking
I. Introduction
II. Testing for Stress Corrosion Cracking
III. General Mechanistic Features
IV. Alloy Systems
V. Additional Mechanistic Features
VI. Conclusion
References
4 Repassivation Kinetics
I. Curve Fitting of Total Anodic Current Decay Kinetics
II. Optical Methods for Determination of Coverage
III. Metal Dissolution Kinetics Using Rotating Ring Disc Voltammetry
References
5 Anodic Films on Aluminium
I. Introduction
II. The Nature of the Aluminium Surface
III. Interaction of Aluminium and its Film with Aggressive and Inhibitor Anions
IV. Anodic Film Formation on Aluminium
V. Barrier-Type Anodic Films
VI. Porous Anodic Film Formation on Aluminium
VII. Different Types of Porous Anodic Film
VIII. Electrolytic Colouring of Porous Anodic Films
IX. Sealing of Anodic Films
X. Conclusions
Acknowledgements
References
6 The Corrosion of Dental Materials
I. Review of Materials and Applications
II. The Environment
III. Dental Casting and Wrought Alloys
IV. Dental Amalgam
V. Galvanic Interactions Between Restorations
VI. Summary
Acknowledgement
References
7 The Use of a.c. Techniques in the Study of Corrosion and Passivity
List of Symbols
I. Introduction
II. The Electrode Impedance
III. Experimental Devices
IV. The Study of Corrosion Processes
V. The Study of the Passivation Process
References
Subject Index
Contents of Previous Volumes
- Edition: 1
- Volume: 23
- Published: February 16, 2016
- Language: English
JS
J C Scully
Affiliations and expertise
Dept of Metallurgy, The University of LeedsRead Corrosion: Aqueous Processes and Passive Films on ScienceDirect