Steel Corrosion and Metallurgical Factors
Laws and Mechanisms
1. Edition April 2025
592 Pages, Hardcover
66 tables
Handbook/Reference Book
ISBN:
978-3-527-35543-3
Wiley-VCH, Weinheim
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Further versions
Chapter 1. Corrosive environments and types of steel
Chapter 2. Microelectrochemical mechanisms of localized corrosion and pitting corrosion induced by inclusions
Chapter 3. Influence of microstructure on the corrosion resistance of steels
Chapter 4. The effect of microalloying elements on the corrosion resistance of low-alloy steel
Chapter 5. Mechanisms of influence of environmental and metallurgical factors on the susceptibility of pipeline steel to stress corrosion
Chapter 6. Mechanism and law of cr and rare earth elements on the low-alloy rebar
Chapter 7. Stress corrosion behavior of high manganese steel mn13 in simulated polluted marine atmospheric environments
Chapter 8. Corrosion fatigue behavior and mechanism of high manganese steel mn13 in simulated atmospheric environment
Chapter 9. Influence of shrinkage defects on corrosion behavior and mechanism of ductile iron pipe
Chapter 10. Coupling of multiple corrosion behaviors in the corrosion process of titanium-steel composites in marine environment
Chapter11. The effect of microalloying elements on the corrosion resistance of low density steel
Chapter 12. Thermodynamic analysis of the research report on the corrosion resistance of blast furnace gas in complex environment
Chapter 13. Application of corrosion big data technology in the development of corrosion-resistant low alloy steel
Chapter 2. Microelectrochemical mechanisms of localized corrosion and pitting corrosion induced by inclusions
Chapter 3. Influence of microstructure on the corrosion resistance of steels
Chapter 4. The effect of microalloying elements on the corrosion resistance of low-alloy steel
Chapter 5. Mechanisms of influence of environmental and metallurgical factors on the susceptibility of pipeline steel to stress corrosion
Chapter 6. Mechanism and law of cr and rare earth elements on the low-alloy rebar
Chapter 7. Stress corrosion behavior of high manganese steel mn13 in simulated polluted marine atmospheric environments
Chapter 8. Corrosion fatigue behavior and mechanism of high manganese steel mn13 in simulated atmospheric environment
Chapter 9. Influence of shrinkage defects on corrosion behavior and mechanism of ductile iron pipe
Chapter 10. Coupling of multiple corrosion behaviors in the corrosion process of titanium-steel composites in marine environment
Chapter11. The effect of microalloying elements on the corrosion resistance of low density steel
Chapter 12. Thermodynamic analysis of the research report on the corrosion resistance of blast furnace gas in complex environment
Chapter 13. Application of corrosion big data technology in the development of corrosion-resistant low alloy steel
Chao Liu is an associate professor at the Institute of New Materials Technology, University of Science and Technology Beijing, China. After obtaining his PhD degree from the University of Science and Technology Beijing, he stayed at the university as a teacher and visited VUB in Brussels, Belgium, and Massachusetts Institute of Technology (MIT) in the United States successively. Based on the major national strategies and the practical needs of material corrosion protection, he has been carrying out research work on the theory and application of the frontiers of micro-zone electrochemical technology for localized corrosion of materials, the theory and technology of corrosion big data, and the research and development of corrosion-resistant new materials.
Xiaogang Li is a professor at the Institute of New Materials Technology, University of Science and Technology Beijing, China. He has long been engaged in the research of material corrosion theory and the development of corrosion-resistant new steel grades and is one of the discipline leaders in this field in China. Aiming at the bottleneck problems of low corrosion resistance of low alloy structural steel and the urgent need to improve the performance of traditional weathering steel in China, he has put forward a new theory on the regulation of the whole process of metallurgical preparation of low alloy steel corrosion resistance based on the systematic obtaining of the mechanism and law of the influence of the alloy composition and metallurgical process parameter on the environmental corrosion origins and evolutions of low alloy steel; he has invented a complete set of new technology of the metallurgical process regulation of the corrosion-resistant steel and series of corrosion-resistant steel varieties.
Xiaogang Li is a professor at the Institute of New Materials Technology, University of Science and Technology Beijing, China. He has long been engaged in the research of material corrosion theory and the development of corrosion-resistant new steel grades and is one of the discipline leaders in this field in China. Aiming at the bottleneck problems of low corrosion resistance of low alloy structural steel and the urgent need to improve the performance of traditional weathering steel in China, he has put forward a new theory on the regulation of the whole process of metallurgical preparation of low alloy steel corrosion resistance based on the systematic obtaining of the mechanism and law of the influence of the alloy composition and metallurgical process parameter on the environmental corrosion origins and evolutions of low alloy steel; he has invented a complete set of new technology of the metallurgical process regulation of the corrosion-resistant steel and series of corrosion-resistant steel varieties.
