Title: Uhlig's Corrosion Handbook, 3rd Edition Author: R. Winston Revie ISBN: 0470080329 / 9780470080320 Format: Hard Cover Pages: 1288 Publisher: Wiley Year: 2011 Availability: Out of Stock
Description
Contents
This book serves as a reference for engineers, scientists, and students concerned with the use of materials in applications where reliability and resistance to corrosion are important. It updates the coverage of its predecessor, including coverage of: corrosion rates of steel in major river systems and atmospheric corrosion rates, the corrosion behavior of materials such as weathering steels and newer stainless alloys, and the corrosion behavior and engineering approaches to corrosion control for nonmetallic materials.
New chapters include: high-temperature oxidation of metals and alloys, nanomaterials, and dental materials, anodic protection. Also featured are chapters dealing with standards for corrosion testing, microbiological corrosion, and electrochemical noise.
Foreword
Foreword to the Second Edition
Preface
Contributors
Introductory Notes on Climate Change, Life-Cycle Design, and Corrosion of Steel
Part I : Basics of Corrosion Science and Engineering
Chapter 1 : Corrosion Failure Analysis with Case Histories Chapter 2 : Cost of Metallic Corrosion Chapter 3 : Economics of Corrosion Chapter 4 : Lifetime Prediction of Materials in Environments Chapter 5 : Estimating the Risk of Pipeline Failure Due to Corrosion Chapter 6 : Designing to Prevent Corrosion Chapter 7 : Simplified Procedure for Constructing Pourbaix Diagrams Chapter 8 : Pourbaix Diagrams for Multielement Systems Chapter 9 : Computation of Pourbaix Diagrams at Elevated Temperature Chapter 10 : Galvanic Corrosion Chapter 11 : Dealloying Chapter 12 : Passivity Chapter 13 : Localized Corrosion of Passive Metals Chapter 14 : Stress Corrosion Cracking Chapter 15 : Hydrogen-Induced Cracking and Sulfide Stress Cracking Chapter 16 : Corrosion Fatigue Chapter 17 : Flow Effects on Corrosion Chapter 18 : Erosion–Corrosion in Single- and Multiphase Flow Chapter 19 : Carbon Dioxide Corrosion of Mild Steel Chapter 20 : High-Temperature Oxidation Chapter 21 : Thermochemical Evaluation of Corrosion Product Stabilities for Alloys in Gases at High Temperature Chapter 22 : A Procedure to Compute Equilibrium Gas-Phase Speciation for Use with Predominance Diagrams Chapter 23 : Atmospheric Corrosion Chapter 24 : Atmospheric Corrosion in Cold Regions Chapter 25 : Corrosion by Soils Chapter 26 : Microbial Degradation of Materials : General Processes Chapter 27 : Corrosion Probability and Statistical Evaluation of Corrosion Data
Part II :Nonmetals
Chapter 28 : Corrosion of Refractories and Ceramics Chapter 29 : Corrosion of Glass Chapter 30 : Microbiological Degradation of Polymeric Materials Chapter 31 : Durability of Concrete Chapter 32 : Microbiological Corrosion of Concrete Chapter 33 : Microbial Degradation of Wood Chapter 34 : Use of Chemicals to Prevent Degradation of Wood
Part III : Metals
Chapter 35 : Metal–Matrix Composites Chapter 36 : Environmental Degradation of Engineered Barrier Materials in Nuclear Waste Repositories Chapter 37 : Corrosion Behavior of Electrodeposited Nanocrystals Chapter 38 : Corrosion of Shape Memory and Superelastic Alloys Chapter 39 : Microbiological Corrosion of Metallic Materials Chapter 40 : Electronic Materials, Components, and Devices Chapter 41 : Corrosion of Electronics : Lead-Free Initiative Chapter 42 : Metastable Alloys Chapter 43 : Carbon Steel - Atmospheric Corrosion Chapter 44 : Carbon Steel - Corrosion in Freshwaters Chapter 45 : Carbon Steel - Corrosion by Seawater Chapter 46 : Carbon Steel - Corrosion by Soils Chapter 47 : Localized Corrosion of Iron and Steel Chapter 48 : Weathering Steel Chapter 49 : Corrosion of Steel in Concrete Chapter 50 : Ethanol Stress Corrosion Cracking of Carbon Steels Chapter 51 : Austenitic and Ferritic Stainless Steels Chapter 52 : Duplex Stainless Steels Chapter 53 : Martensitic Stainless Steels Chapter 54 : Aluminum and Aluminum Alloys Chapter 55 : Cobalt Alloys Chapter 56 : Copper and Copper Alloys Chapter 57 : Lead and Lead Alloys Chapter 58 : Magnesium and Magnesium Alloys Chapter 59 : Nickel and Nickel Alloys Chapter 60 : Tin and Tinplate Chapter 61 : Titanium and Titanium Alloys Chapter 62 : Zinc Chapter 63 : Zirconium Alloy Corrosion
Part IV : Corrosion Protection
Chapter 64 : Controlling Flow Effects on Corrosion Chapter 65 : Erosion–Corrosion : Recognition and Control Chapter 66 : Using Plastics, Elastomers, and Composites for Corrosion Control Chapter 67 : Corrosion Control of Steel by Organic Coatings Chapter 68 : Selection and Use of Coatings for Underground or Submersion Service Chapter 69 : Engineering of Cathodic Protection Systems Chapter 70 : Stray-Current Analysis Chapter 71 : Corrosion Inhibitors Chapter 72 : Computer Technology for Corrosion Assessment and Control
Part V : Testing for Corrosion Resistance
Chapter 73 : Principles of Accelerated Corrosion Testing Chapter 74 : High-Temperature Oxidation - Testing and Evaluation Chapter 75 : Testing for Flow Effects on Corrosion Chapter 76 : Accelerated Testing of Electronics to Simulate Long-Term Worldwide Environments Chapter 77 : Testing for Environmentally Assisted Cracking Chapter 78 : Test Methods for Wet H2S Cracking Chapter 79 : Atmospheric Corrosion Testing Chapter 80 : Galvanic Corrosion Testing Chapter 81 : Testing of Aluminum, Magnesium, and Their Alloys Chapter 82 : Testing of Polymeric Materials for Corrosion Control Chapter 83 : Corrosion Testing of Refractories and Ceramics Chapter 84 : Evaluation and Selection of Corrosion Inhibitor Chapter 85 : Practical Corrosion Prediction Using Electrochemical Techniques Chapter 86 : Electrochemical Noise
Part VI : Corrosion Monitoring
Chapter 87 : Corrosion Monitoring Chapter 88 : Diagnosing, Measuring, and Monitoring Microbiologically Influenced Corrosion
Glossary of Selected Terms Used in Corrosion Science and Engineering
Index