Non-destructive evaluation of corrosion and corrosion-assisted cracking /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Singh, Raman, 1959- (Editor ), Raj, Baldev (Editor ), Mudali, U. Kamachi (Editor ), Singh, Prabhakar (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hoboken, NJ : John Wiley & Sons, Inc., [2019]
Temas:
Corrosion and anti-corrosives > Testing.
Fracture mechanics.
Nondestructive testing.
Mécanique de la rupture.
Contrôle non destructif.
nondestructive testing.
TECHNOLOGY & ENGINEERING > Engineering (General)
TECHNOLOGY & ENGINEERING > Reference.
Corrosion and anti-corrosives > Testing
Fracture mechanics
Nondestructive testing
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Intro; Title Page; Copyright Page; Dedication; Contents; List of Contributors; Foreword; Preface; Chapter 1 Nondestructive Testing: An Overview of Techniques and Application for Quality Evaluation; 1.1 Corrosion Damage and NDE; 1.2 Corrosion: A Brief Overview; 1.3 NDE Methods [1]; 1.3.1 Visual Examination; 1.3.2 Liquid Penetrant Testing; 1.3.3 Magnetic Particle Testing; 1.3.4 Radiographic Testing; 1.3.5 Ultrasonic Testing; 1.3.6 Eddy Current Testing; 1.3.7 In Situ Metallography; 1.3.8 Neutron Radiography; 1.4 Advances in Nondestructive Evaluation for Corrosion Evaluation and Damage Assessment
  • 1.4.1 Digital Radiography1.4.2 Acoustic Emission; 1.4.3 Infrared Thermography; 1.4.4 Compton Backscatter Radiography; 1.5 R & D Trends in NDE for Corrosion Detection Technologies; 1.6 Quality Assurance/Evaluation Requirements for Corrosion Service; 1.6.1 Selection and Qualification of Austenitic Stainless Materials: An Example; 1.6.2 Quality Control Checks During Fabrication; 1.7 Case Study: Zircaloy Hydriding; 1.7.1 Detection and Characterization of Zircaloy Hydrides; 1.8 Conclusion; Acknowledgments; References; Chapter 2 Corrosion: An Overview of Types, Mechanism, and Requisites of Evaluation
  • 2.1 Metallic Corrosion2.2 Cause of Corrosion; 2.3 Electrochemical Nature of Corrosion; 2.4 Types of Corrosion; 2.4.1 Uniform Corrosion; 2.4.2 Galvanic Corrosion; 2.4.3 Pitting Corrosion; 2.4.4 Crevice Corrosion; 2.4.5 Intergranular Corrosion; 2.4.6 Dealloying; 2.4.7 Erosion Corrosion; 2.4.8 Environmentally Assisted Cracking; 2.5 Microbiologically Influenced Corrosion; 2.6 Evaluation and Monitoring of Various Types of Corrosion by Nondestructive Technique (NDT); Reference; Further Reading; Chapter 3 Nondestructive Evaluation of Corrosion: Case Studies I; 3.1 Introduction
  • 3.2 Nondestructive Examination: A Perspective3.3 Factors Determining Selection of NDE Method; 3.3.1 Location of the Flaw to Be Detected; 3.3.2 Type of Material; 3.3.3 Geometry of the Component to Be Examined; 3.3.4 Accessibility; 3.3.5 Sensitivity of the Flaw to Be Detected; 3.3.6 Cost; 3.4 NDE for Monitoring Uniform Corrosion; 3.5 Monitoring Pitting Corrosion; 3.6 Monitoring Crevice Corrosion; 3.7 Monitoring Intergranular Corrosion; 3.8 Monitoring Stress Corrosion Cracking; 3.9 Advanced NDE Methods for Corrosion Monitoring; 3.9.1 Long-range Ultrasonic Technique; 3.9.2 Magnetic Flux Leakage
  • 3.9.3 Remote Field Eddy Current Technique (RFECT)3.9.4 Pulsed Eddy Current Testing; 3.9.5 Tangential Radiography; 3.9.6 Infrared Thermography; 3.10 Conclusions; References; Chapter 4 NDE Methods for Monitoring Corrosion and Corrosion-assisted Cracking: Case Studies II; 4.1 Introduction; 4.2 NDE Methods for Corrosion Detection and Monitoring; 4.2.1 Surface NDE Methods; 4.2.2 X-radiography; 4.2.3 Infrared Thermography; 4.2.4 Acoustic Emission; 4.2.5 Ultrasonics; 4.2.6 Eddy Current; 4.2.7 Magnetic Flux Leakage; 4.3 NDE Methods for Detection of Stress Corrosion Cracking

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