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Computational Nondestructive Evaluation Handbook
Ultrasound Modeling Techniques
Synopsis
Introducing computational wave propagation methods developed over 40 years of research, this comprehensive book offers a computational approach to NDE of isotropic, anisotropic, and functionally graded materials. It discusses recent methods to enable enhanced computational efficiency for anisotropic materials. It offers an overview of the need for and uses of NDE simulation. The content provides a basic understanding of ultrasonic wave propagation through continuum mechanics and detailed discussions on the mathematical techniques of six computational methods to simulate NDE experiments. In this book, the pros and cons of each individual method are discussed and guidelines for selecting specific simulation methods for specific NDE scenarios are offered.
Covers ultrasonic CNDE fundamentals to provide understanding of NDE simulation methods
Offers a catalog of effective CNDE methods to evaluate and compare
Provides exercises on real-life NDE problems with mathematical steps
Discusses CNDE for common material types, including isotropic, anisotropic, and functionally graded materials
Presents readers with practical knowledge on ultrasonic CNDE methods
This work is an invaluable resource for researchers, advanced students, and industry professionals across materials, mechanical, civil, and aerospace engineering, and anyone seeking to enhance their understanding of computational approaches for advanced material evaluation methods.
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What Reviewers Are Saying
This book is an invaluable addition to technical libraries in Computational Nondestructive Evaluation (NDE), as it is focused on the computational methods for NDE modeling and simulation, providing discussion of a variety of commonly used methods. Given the complexity of the subject, the authors have dedicated their first seven chapters to paving the way toward understanding. They discuss experimental methods for nondestructive testing of materials, basics of continuum mechanics, and wave propagation theory. The book [also] includes numerous clear illustrations as well as many numerical solved examples. Graduate students and researchers already specialized for work in this field would fully benefit from this book."
--S. D. El Wakil, emeritus, University of Massachusetts Dartmouth, CHOICE, June 2021