Reset Filters
Branch: 杨浦分馆

Cover is for reference only

Engineering tools for corrosion : design and diagnosis /

Annotation

Saved in:
Bibliographic Details
Main Authors: Lazzari, Luciano, 1948-
Corporate Authors: Elsevier Science & Technology.
Published: Elsevier Science,
Publisher Address: Duxford :
Publication Dates: 2017.
Literature type: eBook
Language: English
Series: European Federation of Corrosion (EFC) series ; no. 68
Subjects:
Tools > Corrosion.
Metals > Corrosion fatigue.
TECHNOLOGY & ENGINEERING > Mechanical.
Electronic books.
Online Access: https://www.sciencedirect.com/science/book/9780081024249
Summary: Annotation
Item Description: Includes index.
3.8.1 Coefficient of variation, CV.
Carrier Form: 1 online resource (190 pages).
ISBN: 9780081024256
0081024258
Index Number: TJ1185
CLC: TG5
Contents: Front Cover; Engineering Tools for Corrosion; Copyright Page; Dedication; Contents; Author Biography; List of Symbols and Abbreviations; Units; Premise; Volumes in the EFC Series List; 1 Basic Principles; 1.1 Corrosion reactions; 1.2 Electrochemical mechanism; 1.2.1 Anodic processes; 1.2.2 Cathodic processes; 1.3 Stoichiometry (Faraday Law); 1.4 Thermodynamic conditions; 1.4.1 Reference electrodes; 1.4.2 Potential of anodic reaction, Ea; 1.4.3 Potential of cathodic reaction, Ec; 1.4.3.1 Hydrogen evolution; 1.4.3.2 Oxygen reduction; 1.5 Kinetics of aqueous corrosion; 1.5.1 Anodic overvoltage.
1.5.1.1 Passivity-related parameters for stainless steels1.5.2 Cathodic overvoltage; 1.5.2.1 Hydrogen evolution; 1.5.2.2 Oxygen reduction; 1.5.2.3 Oxygen limiting current density; 1.5.2.4 Overall cathodic current; 1.6 Summary; 1.7 Appendix; 1.7.1 Case study-design parameters for an anodic protection system; 1.7.2 Case study-design current for cathodic protection; References; Further reading; 2 Uniform Corrosion; 2.1 Model for acidic corrosion; 2.1.1 Strong acids; 2.1.2 Carbonic acid; 2.1.3 Hydrogen sulphide; 2.1.4 Organic acids; 2.1.5 Uniform corrosion of passive metals in acids.
2.2 Aerated solutions2.2.1 Oxygen limiting current density; 2.2.2 Presence of chlorine; 2.2.3 Dimensionless number approach; 2.3 Summary; 2.4 Appendix; 2.4.1 Coefficient of variation, CV; 2.4.2 Corrosion rate in carbonic acid; 2.4.2.1 Corrosion mechanism in carbonic acid; 2.4.3 Corrosion rate by organic acids; 2.4.4 Corrosion rate in acidic solutions of Fe, Zn and Cu; 2.4.5 Case study: stainless steel in acetic acid; 2.4.6 Case study: stainless steel in hot acids; 2.4.7 Dimensionless number approach vs empirical Fick equation; References; Further reading; 3 Localized Corrosion; 3.1 Macrocell.
3.4.3.3 Noble metal as cathode and active metal as anode in aerated, near neutral or alkaline electrolytes (Fig. 3.4B)3.4.3.4 Passive metal as cathode and active metal as anode in aerated, near neutral or alkaline electrolytes (Fig. 3.5); 3.4.3.5 Active nonnoble metals in oxygen-free acids (Fig. 3.6); 3.4.3.6 Noble or passive metal as cathode and active metal as anode in oxygen-free acids (Fig. 3.7); 3.4.4 Time dependency; 3.5 Differential aeration; 3.6 Intergranular corrosion; 3.6.1 Mechanism of intergranular corrosion; 3.6.2 Intergranular corrosion testing; 3.7 Summary; 3.8 Appendix.

Related Book Recommendations