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基本説明
The Second International Conference presents and discusses the state of the art on the computer simulation of corrosion, electrochemical processes and the electrical and electromagnetic fields associated with them.
Full Description
Electrochemical processes are the basis of diverse areas of interest ranging from corrosion to fabrication processes. While computational modeling is stressed, the need to understand the underlying physical phenomena is not forgotten. Using state of the art computational modeling of electrochemical processes, this book contains papers presented at the Second International Conference on the Simulation of Electrochemical Processes. The papers contained in this book highlight the links between computational and experimental methods in a wide variety of subject areas including: cathodic protection systems, modelling methodologies, interference & signature control, detection & monitoring of corrosion, experimental measurements & computer results, and stress corrosion, cracking & corrosion fatigue.
Contents
Section 1: Modelling methodologies Micro-scale computer modelling of the relationship between metallurgical microstructure and localized corrosion effects; Mesoscopic modeling of corrosion processes: pitting morphology evolution; Dual reciprocity boundary element method for iron corrosion in acidic solution; An analytical modeling method for calculating the maximum cathode current deliverable by a circular cathode under atmospheric exposure; Phase field modeling of phase boundary motion due to transport-limited electrochemical reactions; Kinetic Monte Carlo modelling the leaching of Raney Ni-Al alloys; Dynamic simulation of a deposition process; Two-phase electrolysis process modelling: from the bubble to the electrochemical cell scale; Simulating electro-coating of automotive body parts using BEM Section 2: Cathodic protection systems 3D cathodic protection design of ship hulls; Validation plan for boundary element method modeling of impressed current cathodic protection system design and control response; Predicting the performance of cathodic protection systems with large scale interference; Cathodic protection application possibilities in activity building of overhead lines: protection of armature tower foundations Section 3: Experimental measurements and computer results Dipole modelling and sensor design; Transport phenomena in an electrochemical rotating cylinder reactor; Simulation of the electrical transient during the porous anodizing of pure aluminium substrate; Extraction of a quantitative reaction mechanism from linear sweep voltammograms obtained on a rotating disk electrode; IRDE and RDE electrochemical cells evaluation: comparison of electron and mass transfer; Experimental study and modelling of heat transfer during anodizing in a wall-jet set-up; Scanning Vibrating Electrode Technique as an application for measuring corrosion activity of carbon steel welded pipelines Section 4: Interference and signature control Predicting corrosion related signatures; Fast solution techniques for corrosion and signatures modelling; Corrosion related electromagnetic signatures measurements and modelling on a 1:40th scaled model Section 5: Stress corrosion, cracking and corrosion fatigue Modelling environmentally assisted cracking in pipeline steels; On the SCC behaviour of austenitic stainless steels in boiling saturated magnesium chloride solution; Electrochemical behaviour and corrosion sensitivity of prestressed steel in cement grout; Sub-Modelling Boundary Element approach for stress concentration in samples exposed to pitting corrosion; Corrosion of reinforcing steel in reinforced and prestressed concrete bridges Section 6: Detection and monitoring of corrosion Corrosion detection by multi-step genetic algorithm; A reactive transport model for evaluating the long-term performance of stainless steels in concrete; Characteristic evaluation of corrosion of aluminum-based rigid conductor line; Special weathering steel, a contribution to environmental protection
