This book presents a set of high-performance, analytical-numerical methods for elastic wave analysis of anisotropic layered structures. A number of advanced techniques are discussed, including the strip element method and methods that combine the finite element method and the Fourier transform approaches. Methods for solving inverse problems using elastic waves are also presented. Relevant to a diverse audience of students in science and engineering disciplines, structural, mechanical, and civil engineers, electronic packaging specialists, biomedical engineers, and thin film researchers in…mehr
This book presents a set of high-performance, analytical-numerical methods for elastic wave analysis of anisotropic layered structures. A number of advanced techniques are discussed, including the strip element method and methods that combine the finite element method and the Fourier transform approaches. Methods for solving inverse problems using elastic waves are also presented. Relevant to a diverse audience of students in science and engineering disciplines, structural, mechanical, and civil engineers, electronic packaging specialists, biomedical engineers, and thin film researchers in data storage areas, this will prove itself an indispensable reference for those engaged in the use of laminates, and in handling NDE problems
Fundaments of Waves in Elastic Solids. Waves in Plates of Functionally Graded Material. Free Wave Motion in Anisotropic Laminates. Forced Wave Motion in Composite Laminates. Characteristics of Waves in Composite Laminates. Free Wave Motion in Anisotropic Laminated Bars: Finite Strip Element Method. Free Wave Motion in Composite Laminated Bars: Semi-Exact Method. Transient Waves in Composite Laminates. Waves in Functionally Graded Plates. Waves in Anisotropic Functionally Graded Piezoelectric Plates. Strip Element Method for Stress Waves in Anisotropic Solids. Wave Scattering by Cracks in Composite Laminates. Waves Scattering by Flaws in Composite Laminates. Bending Waves in Anisotropic Laminated Plates. Characteristics of Waves in Composite Cylinders. Wave Scattering by Cracks in Composite Cylinders. Inverse Identification of Impact Loads Using Elastic Waves. Inverse Determination of Material Constants of Composite Laminates.
Fundaments of Waves in Elastic Solids. Waves in Plates of Functionally Graded Material. Free Wave Motion in Anisotropic Laminates. Forced Wave Motion in Composite Laminates. Characteristics of Waves in Composite Laminates. Free Wave Motion in Anisotropic Laminated Bars: Finite Strip Element Method. Free Wave Motion in Composite Laminated Bars: Semi-Exact Method. Transient Waves in Composite Laminates. Waves in Functionally Graded Plates. Waves in Anisotropic Functionally Graded Piezoelectric Plates. Strip Element Method for Stress Waves in Anisotropic Solids. Wave Scattering by Cracks in Composite Laminates. Waves Scattering by Flaws in Composite Laminates. Bending Waves in Anisotropic Laminated Plates. Characteristics of Waves in Composite Cylinders. Wave Scattering by Cracks in Composite Cylinders. Inverse Identification of Impact Loads Using Elastic Waves. Inverse Determination of Material Constants of Composite Laminates.
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