Non-Destructive Material Characterization Methods provides readers with a trove of theoretical and practical insight into how to implement different non-destructive testing methods for effective material characterization. The book starts with an introduction to the field before moving right into a discussion of a wide range of techniques that can be immediately implemented. Various imaging and microscopy techniques are first covered, with step-by-step insights on characterization using a polarized microscope, an atomic force microscope, computed tomography, ultrasonography, magnetic resonance imaging, infrared tomography, and more. Each chapter includes case studies, applications, and recent developments.
From there, elemental assay and mapping techniques are discussed, including Raman spectroscopy, UV spectroscopy, atomic absorption spectroscopy, neutron activation analysis, and various others. The book concludes with sections covering displacement measurement techniques, large-scale facility techniques, and methods involving multiscale analysis and advanced analysis.
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Table of Contents
1. Introduction to Non-Destructive Material Characterizations 2. Optical Microscope (Interferometric and non- interferometric optical microscope techniques) 3. Polarized Microscope 4. Atomic Force Microscopy 5. Non-Destructive Imaging of Buried Interfaces Using Decelerated Electron-Beam in Scanning Electron Microscopy 6. Scanning Probe Microscope 7. Transmission Electron Microscope 8. Neutron Imaging 9. Infrared Thermography: Philosophy, Approaches, Analysis Processing, and Guidelines 10. Non-Destructive Material Testing in Welding: Ultrasonic Scanning 11. Diffraction with X -Rays and Neutrons 12. Raman Spectroscopy Part 1 13. Raman Spectroscopy Part 2 14. UV-Vis Spectroscopy in Non-Destructive Testing 15. Hard X-ray Photoelectron Spectroscopy (HAXPES) and X-Ray Diffraction Techniques (XRD): Non-Destructive compositional, electronic, chemical and structural in-depth characterization in the tens-of-nanometer scale 16. X-ray Fluorescence Spectroscopy 17. Mass Spectrometry 18. Atomic Absorption Spectrophotometry 19. Dielectric Spectroscopy and Techniques 20. Element Analysis with Neutrons 21. X-ray Stress Analysis 22. Neutrons Characteristics and Sources 23. NDT of Steel Components based upon their Magnetic Answer 24. Cloud-Based Non-Destructive Characterization 25. Complementary Results of Non-Destructive Elemental Assay and Liberation Analysis of Waste Printed Circuit Boards 26. Future Perspectives on Non-Destructive Material Characterization Methods towards Sustainability and Circular Economy
Authors
Akira Otsuki Lule� University of Technology.Dr. Akira Otsuki is a Visiting Professor at Lule� University of Technology, and the Unit coordinator and leading professor of the unit "Mine Tailings� at Universidad Adolfo Ib��ez. He is a member of several academic societies as well as an editor of academic journals including ChemEngineering and Recycling. He also serves as a guest editor of special issues, including "Colloidal/Fine Particle Aspects of Mine Tailings�. His research focuses on characterization and processing of complex materials, including waste materials, natural ores, and colloids. He has been developing and running national and international research projects on his research focuses.
Seiko Jose Scientist, Central Sheep and Wool Research Institute, Avikanagar, Rajasthan, India. Seiko Jose PhD is a scientist, working at ICAR-Central Sheep and Wool Research Institute, Avikanagar, Rajasthan, India. He has over 17 years' experience in textiles including time spent in industry and academia. His industrial experience is focused on wet processing of cotton, silk, and linen processing units. For the last 8 eight years of his research career, he has worked with a range of natural fibres such as, wool, jute, pineapple leaf fibre, coir, flax, and ramie. He has contributed to 30 research papers and 9 book chapters. His major research areas are extraction and characterization of natural fibre, textile dyeing and finishing, eco-friendly textile processing, natural fibre composites, and natural dyes. Manasa Mohan Kothari postdoctoral fellow, School of Energy Materials, Mahathma Gandhi University, Kottayam, Kerala, India. Dr. Manasa Mohan A. graduated in 2010 from University of Kerala, India, completing post-graduation with first rank from the Department of Chemistry, and also received a gold medal in chemistry from the University of Kerala. She completed her PhD in polymer-based drug delivery systems in 2018. She is now working as a Kothari postdoctoral fellow in Mahathma Gandhi University, Kottayam, Kerala. Sabu Thomas Professor, School of Energy Materials, Mahatma Gandhi University, India.Prof. Sabu Thomas is a Professor of Polymer Science and Engineering and the Director of the School of Energy Materials at Mahatma Gandhi University, India. Additionally, he is the Chairman of the Trivandrum Engineering Science & Technology Research Park (TrEST Research Park) in Thiruvananthapuram, India. He is the founder director of the International and Inter-university Centre for Nanoscience and Nanotechnology at Mahatma Gandhi University and the former Vice-Chancellor of the same institution.
Prof. Thomas is internationally recognized for his contributions to polymer science and engineering, with his research interests encompassing polymer nanocomposites, elastomers, polymer blends, interpenetrating polymer networks, polymer membranes, green composites, nanocomposites, nanomedicine, and green nanotechnology. His groundbreaking inventions in polymer nanocomposites, polymer blends, green bionanotechnology, and nano-biomedical sciences have significantly advanced the development of new materials for the automotive, space, housing, and biomedical fields. Dr. Thomas has been conferred with Honoris Causa (DSc) by the University of South Brittany, France.