Keywords:
Electronic books.
Description / Table of Contents:
The book presents theoretical insights, characterization tools and mechanisms of green corrosion inhibitors.
Type of Medium:
Online Resource
Pages:
1 online resource (242 pages)
Edition:
1st ed.
ISBN:
9781644901052
Series Statement:
Materials Research Foundations Series ; v.86
URL:
https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=6380632
Language:
English
Note:
Intro -- front-matter -- Table of Contents -- Preface -- 1 -- Theoretical Insights in Green Corrosion Inhibitors -- 1. Introduction -- 2. Theoretical methods used in green corrosion inhibitors -- 2.1 Quantum chemistry methods -- 2.2 Quantitative structure-activity relationships -- 2.3 Molecular dynamics simulation -- 3. The progress of theoretical study in green corrosion inhibitors -- 3.1 The behavior of green corrosion inhibitor studied by combination of quantum chemistry and QSAR -- 3.1.1 Carbon steel inhibitors -- 3.1.2 Copper inhibitors -- 3.2 The performance of green corrosion inhibitor studied by combination of molecular simulation and quantum chemistry -- 3.2.1 Carbon steel inhibitor -- 3.2.2 Aluminum inhibitors -- 3.2.3 Copper inhibitors -- 3.3 The behavior of green corrosion inhibitor studied by combination of molecular simulation, quantum chemistry and QSAR -- 3.3.1 Carbon steel inhibitors -- 3.3.2 Copper inhibitors -- Conclusions -- Acknowledgments -- References -- 2 -- Effect of Natural Sources on the Corrosion Inhibition -- 1. Introduction -- 2. Green corrosion inhibitors -- 2.1 Protection of iron based surfaces via green corrosion inhibitors -- 2.1.1 Protection of iron surfaces via green corrosion inhibitors -- 2.1.2 Protection of mild steel surfaces via green corrosion inhibitors -- 2.1.3 Protection of steel surfaces via green corrosion inhibitors -- 2.1.4 Protection of carbon steel surfaces via green corrosion inhibitors -- 2.1.5 Protection of steel rebar surfaces via green corrosion inhibitors -- 2.2 Protection of aluminum surfaces via green corrosion inhibitors -- 2.3 Protection of copper surfaces via green corrosion inhibitors -- 2.4 Protection of tin surfaces via green corrosion inhibitors -- 2.5 Green corrosion inhibitors resources -- 3. Anti-corrosion mechanism (for natural inhibitors).
,
3.1 Anodic, cathodic and mixed type inhibition -- 4. Corrosion inhibitors testing -- 5. Economic and industrial opportunities -- References -- 3 -- Green Inhibitors for Biocorrosion and Prevention -- 1. Introduction -- 1.1 The portability of the metal to the corrosion -- 1.2 The factors affecting the speed of corrosion -- 1.3 Types of corrosions -- 1.3.1 Pure chemical corrosion -- 1.3.2 Electrochemical corrosion -- 1.3.3 Homogeneous (general) corrosion -- 1.3.4 Local corrosion -- 1.3.5 Stress - corrosion cracking -- 1.3.6 Galvanic corrosion -- 1.3.7 Erosion corrosion (EC) -- 1.3.8 Crevice corrosion -- 1.3.9 Pitting corrosion (PC) -- 1.3.10 Exfoliation corrosion -- 1.3.11 Selective leaching -- 1.3.12 Nonmetallic corrosion -- 1.3 Corrosion of cement -- 1.5 Corrosion of organic materials -- 1.6 Environment factors -- 1.6.1 Effect of oxygen and oxidants -- 1.6.2 Effect of pH -- 1.6.2 Effect of anions and cations -- 1.7 Anti-corrosion methods -- 1.7.1 The green impediments for corrosion -- 1.7.2 Determination of green corrosion inhibitors based on ionic fluids -- 1.7.3 Corrosion suppressions from the biological waste -- Conclusion -- References -- 4 -- Electrochemical Studies of Green Corrosion Inhibitors -- 1. Introduction -- 2. Corrosion inhibitors -- 2.1 Green corrosion inhibitors -- 2.1.1 Natural products -- 2.1.2 Amino acids -- 2.1.3 Rare earth metal compounds -- 2.1.4 Recently used green inhibitors -- 3. Characterization techniques -- 3.1 Polarization methods -- 3.1.1 Linear polarization resistance method -- 3.1.2 Potentiodynamic-galvanodynamic polarization -- 3.1.3 Cyclic potentiodynamic polarization -- 3.1.4 Cyclic galvano-staircase polarization -- 3.1.5 Conversion of Icorr (from polarization methods) to corrosion rates -- 3.1.6 Limitations associated with polarization methods -- 3.2 Electrochemical impedance spectroscopy (EIS).
,
3.2.1 Interpretation of results (Nyquist & -- Bode plots) -- 3.2.2 Equivalent circuits -- 3.3 Electrochemical Noise (EN) measurements -- 3.4 Electrochemical Quartz Crystal Microbalance (EQCM) -- Concluding remark -- References -- 5 -- Green Corrosion Inhibitors for Technological Applications -- 1. Introduction -- 2. Green corrosion inhibitors -- 3. Technological applications of green corrosion inhibitors -- 3.1 Oil and gas sector -- 3.2 Reinforced concrete -- 3.3 Acid pickling industry -- 3.4 Coatings -- 3.5 Aircraft industry -- 3.6 Water industry -- Conclusion -- Acknowledgment -- References -- 6 -- Pyrazine Derivatives as Green Corrosion Inhibitors -- 1. Introduction -- 2. Pyrazine and its derivative as prominent corrosion inhibitor for metals and alloys in corrosive media -- 3. Adsorption mechanism -- Further aspects -- Conclusion -- Abbreviations -- Acknowledgement -- References -- 7 -- Biological Corrosion Inhibitors for Concrete -- 1. Introduction -- 2. Biological Corrosion Inhibitors -- 2.1 Microbial -- 2.1.1 Bacterial -- 2.1.1.1 Ureolytic -- 2.1.1.2 Non-ureolytic -- 2.1.2 Nitrate reducing bacteria -- 2.1.3 Biomolecules -- 2.1.4 Deoxyribonucleic acid (DNA) -- 2.1.5 Mussel adhesive proteins -- 2.1.6 Fungus -- 2.2 Botanical -- 2.2.1 Extract of tree/plant leaves -- 2.2.2 Bark extract of trees/plants -- 2.2.3 Seeds or grains -- 2.2.4 Plant roots extracts -- 2.2.5 Plants mucilage -- 2.2.6 Algae -- 3. Comparison -- Conclusion -- References -- 8 -- Green Corrosion Inhibitor for Electronics -- 1. Introduction -- 2. Causes and factors for corrosion in electronics -- 2.1 Contaminant gases affect the manufacturing areas -- 2.2 Other problems faced in manufacturing process -- 2.3 Effects of ammonia -- 2.4 Effects of ozone, boron and other volatile organic compounds -- 2.5 Airborne contamination in various sector -- 2.5.1 Telecom industry.
,
2.5.2 Distributed control system (DCS) -- 2.5.3 Data centers -- 3. Metals or specific alloys component for electronics -- 4. Electronic component susceptibility towards corrosion and failure analysis -- 4.1 Printed circuit board -- 4.2 Contact and connector -- 4.2.1 Pore corrosion in electrical contacts -- 4.2.2 Fretting corrosion of electronic connectors -- 4.3 Integrated circuits -- 4.4 Solder corrosion: the corrosive effect of soldering flux -- 4.5 Hermetic packages -- 5. Reliability and cleanliness -- 6. Electronics corrosion protection -- 7. Vapor phase corrosion inhibitor (VPCI) technology -- 8. Vapor pressure measurement by various methods -- 8.1 Regnault dynamic method -- 8.2 Boiling point determination method -- 8.3 Knudsen effusion method -- 8.4 Microbalance method -- 8.5 Torsion effusion method -- 9. Effect of temperature on the vapor pressure -- 10. Effect of pH -- 11. Types of vapor phase corrosion inhibitors (VPCI) -- 12. Analysis of corrosion by different method -- 12.1 Vapor pressure determination -- 12.2 Weight loss method -- 12.3 Esckhe method -- 12.4 Salt spray method -- 13. Advantages of VPCI -- References -- back-matter -- Keyword Index -- About the Editors.
Permalink