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Full Description
Pitting corrosion presents a critical challenge to engineering infrastructure, with limited comprehensive modeling methodologies available to evaluate the effectiveness of corrosion mitigation strategies tailored to specific structural systems. This book aims to bridge that gap by introducing advanced, integrated models that encompass the various stages and influencing factors of the corrosion process. It provides an in-depth exploration of corrosion fatigue mechanisms, the impact of stress and temperature, and practical approaches to mitigate corrosion-induced damage in structural components.
Features
Discusses exclusive material on modelling of the pitting corrosion process
Provides a brief outline of experimental techniques for pitting corrosion
Covers advanced numerical modelling techniques are explained with number of examples
Presents data on modular form for easy understanding of the modelling techniques
Includes equations/flow charts to generate the numerical codes
This book is aimed at graduate students, researchers and professionals in materials science, corrosion, aerospace, mechanical and civil engineering.
Contents
1. Introduction 2. Review of Fatigue and Fracture Mechanics 3. Review of Pitting Corrosion and Corrosion Fatigue 4. Extended Finite Element Method (XFEM) 5. Review of Cellular Automata Modeling 6. Review of Peridynamics Modelling 7. Review of Data Driven Models and Modal Analysis 8. Experimental Methods in Pitting Corrosion 9. Modelling of Pitting Corrosion Using Fick's Law of Diffusion and XFEM 10. Coupled PCA-XFEM model for Fatigue Assisted Pitting Corrosion 11. Hybrid PD-ML model for Pitting Corrosion 12. Hybrid PD-ML model for Stress-Assisted Pitting Corrosion
