Ultrasonic guided waves in solid media are important in nondestructive testing and structural health monitoring.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Dr Joseph L. Rose is the Paul Morrow Professor in the Engineering Science and Mechanics Department at Pennsylvania State University. He is also Chief Scientist and President of FBS, Inc., a company dedicated to technology transfer, product development, and consulting on ultrasonic guided waves in nondestructive evaluation and structural health monitoring. He received his PhD from Drexel University in 1970. He is the author of twenty patents, four textbooks, and more than 600 scholarly articles, most focused on ultrasonics. He has served as principal adviser to more than 60 PhD and 150 MS students, and is a fellow of ASNT, ASME, IEEE, and the British Society for Nondestructive Testing. Dr Rose has also received many awards, including the SPIE Lifetime Achievement Award in recognition of sustained contributions to the advancement of nondestructive evaluation and structural health monitoring in 2011, the Penn State University Graduate Teaching Award in 2012, and the distinction of being a finalist in the Discover magazine award for innovation in aviation and aerospace in 1995.
Inhaltsangabe
Preface Acknowledgments 1. Introduction 2. Dispersion principles 3. Unbounded isotropic and anisotropic media 4. Reflection and refraction 5. Oblique incidence 6. Waves in plates 7. Surface and subsurface waves 8. Finite element method for guided wave mechanics 9. The semi-analytical finite element method (SAFE) 10. Guided waves in hollow cylinders 11. Circumferential guided waves 12. Guided waves in layered structures 13. Source influence on guided wave excitation 14. Horizontal shear 15. Guided waves in anisotropic media 16. Guided wave phased arrays in piping 17. Guided waves in viscoelastic media 18. Ultrasonic vibrations 19. Guided wave array transducers 20. Introduction to guided wave nonlinear methods 21. Guided wave imaging methods Appendix A: ultrasonic nondestructive testing principles, analysis and display technology Appendix B: basic formulas and concepts in the theory of elasticity Appendix C: physically based signal processing concepts for guided waves Appendix D: guided wave mode and frequency selection tips.
