Corrosion (General)A. Davenport The papers included in this issue of ECS Transactions were originally presented in the symposium ¿Corrosion General Session¿, held during the 211th meeting of The Electrochemical Society, in Chicago, IL, from May 6 to 11, 2007. |
Contents
The OpenCircuit Potential of a Polarizable and Reactive Electrode | 1 |
Corrosion Reliability of Electronic Systems | 17 |
Inhibitive Effect of Seawater on the Corrosion of ParticulateReinforced | 29 |
Water Transport in Multilayer Organic Coatings | 41 |
Reason of Inhibiting the Iron Anodic Dissolution in Acid Sulfate Electrolyte by | 57 |
Estimation of Inhibitor Efficiency against Hydrogen Sulfide and Carbonic Acid | 67 |
Benzotriazole Influence on Copper Pitting Corrosion in HydrocarbonateChloride | 73 |
Composite Passive Layers of NiOH2PolyNeutral Red on Nickel in a Weakly | 79 |
Acid Sulphate Medium Grown under Potentiodynamic Conditions | 93 |
Hot Corrosion Behavior of Newly Developed Nickel based Superalloy and | 105 |
Author Index | 117 |
Common terms and phrases
according acid anodic applied approximately array associated calculated capacitance cathodic cations charge Chem coating composition concentration condition conducted consistent constant containing copper corresponding coupled coverage curve decrease dendrites dependence deposition determined developed diffusion dissolution distance distribution drying effect electric electrochemical electrode electrode surface electrolyte elements epoxy evolution experimental experiments Figure fitting formation formed function given growth hot corrosion HTlcs hydrogen immersion impedance increase indicated inhibitive inhibitor interface ions iron layer mass material means measured mechanism metal MMCs morphology NaCl nickel observed obtained oxidation oxygen parameters passive passive layer peak phase potential precipitates presented protective provides range reaction reduced represented respectively RTIL saturated seawater shown shows simulated Society solution studies super alloy surface Table TEFLON temperature topcoat tungsten two-layer water uptake