Corrosion Engineering

Auteur
Branko N. Popov is Carolina Distinguished Professor at the Department of Chemical Engineering, University of South Carolina, USA is. He has established at USC an internationally recognized research program in corrosion and electrochemical engineering and is among the world's most highly cited and respected researchers in the field.

In the last four years, his work at University of South Carolina led to research grants of $10M from the government and industry. During his seventeen years of service at USC and as the Director of the Centre for Electrochemical engineering. his research group has published 220 peer-reviewed articles, 52 proceeding volume articles, and 13 book chapters. His research group presented more than 220 conference papers on the National and International Conferences organized globally. His research group presented more than 235 conference papers on the National and International Conferences organized globally. He has received funding from DOE, NSF, ONR, ARMY, Reconnaissance Office, NRO, NASA, AESF, DOT and private companies. Dr. Popov has been included in the lists in 2014 and 2015 of ISI Highly Cited Researchers, which represents a world's leading scientist, according to Tomson Reuters. According to Scholar Commons, his papers were accessed more than 53,500 times.

Texte du rabat

Corrosion Engineering: Principles and Solved Problems, Second Edition gives a comprehensive overview and introduction to the field through an extensive, theoretical description of the principles of corrosion theory, passivity and corrosion prevention strategies, and design of corrosion protection systems. The second edition has been thoroughly updated with new knowledge and includes solved corrosion case studies, corrosion analysis and solved corrosion problems to help the reader to understand the corrosion fundamental principles from thermodynamics and electrochemical kinetics, the mechanism that triggers the corrosion processes at the metal interface and how to control or inhibit the corrosion rates. A key goal of the updated book is to help the next generation of engineers and scientists: (i) understand the theory of hydrogen embrittlement and stress corrosion cracking as well as hydrogen damage prevention strategies, (ii) design models for developing hydrogen damage-resistant alloys, and (iii) prevent damage of different industrial components due to the presence and localization of hydrogen in metals. To accomplish these objectives, the book offers case studies of hydrogen permeation, hydrogen embrittlement, mechanical properties of alloys, and hydrogen damage control.

Contenu

1. Evaluation of Corrosion 2. Thermodynamics in the Electrochemical Reactions of Corrosion 3. Electrochemical Kinetics of Corrosion 4. Passivity 5. Basics of Corrosion Measurements 6. Galvanic Corrosion 7. Pitting and Crevice Corrosion 8. Hydrogen Permeation and Hydrogen-Induced Cracking 9. Stress Corrosion Cracking 10. Hydrogen Entry into metals and alloys 11. Mechanisms of Hydrogen Degradation on 12. Atmospheric Corrosion 13. High-Temperature Corrosion 14. Corrosion of Structural Concrete 15. Organic Coatings 16. Corrosion Inhibitors 17. Cathodic Protection