Cover
Half-Title Page
Title Page
Copyright Page
Contents
Preface
List of Main Symbols
1. Propagation in an Unbounded Solid
1.1. Reviewing the mechanics of continuous media
1.1.1. Conservation equations
1.1.2. Kinematics of continuous media
1.1.3. Poyntingβs theorem: energy balance
1.1.4. Stressβstrain relationship: Maxwell relations
1.2. Isotropic solid
1.2.1. Constitutive equations
1.2.2. Equations of propagation, wave decoupling
1.2.3. Traveling, plane, sinusoidal waves
1.2.4. Polarization
1.2.5. Acoustic intensity
1.2.6. Cylindrical and spherical waves
1.3. Anisotropic solid
1.3.1. Symmetry and elasticity tensor
1.3.2. Propagation equation, phase velocity, polarization
1.3.3. Propagation in an orthotropic material
1.3.4. Group velocity and energy velocity
1.3.5. Slowness surface and wave surface
1.4. Piezoelectric solid
1.4.1. Constitutive equations
1.4.2. Reduction in the number of independent piezoelectric constants
1.4.3. Plane waves in a piezoelectric crystal
1.5. Viscoelastic media
1.5.1. Constitutive equation of linear viscoelasticity
1.5.2. Simple rheological models
1.5.3. Velocity and attenuation in a viscoelastic medium
1.5.4. Timeβtemperature superposition principle
1.5.5. Newtonian fluid
2. Reflection and Transmission at an Interface
2.1. Boundary conditions
2.2. Direction and polarization of reflected and transmitted waves
2.2.1. Graphical construction
2.2.2. Wave decoupling
2.2.3. Critical angle, evanescent wave and total reflection
2.2.4. Conservation of energy
2.3. Isotropic solid: transverse horizontal wave
2.3.1. Reflection and transmission between two solids
2.3.2. Plate between two solids, impedance matching
2.4. Isotropic media: longitudinal and transverse vertical waves
2.4.1. Reflection on a free surface
2.4.2. Solidβfluid interface
2.5. Anisotropic medium: diffraction matrix
2.5.1. Analytical resolution
2.5.2. Expression for the stresses
2.5.3. Sorting the solutions
2.5.4. Considerations of symmetry
2.5.5. Reflection and transmission coefficients, interface waves
2.5.6. Interface between an orthotropic solid and an isotropic solid
3. Surface Waves and Interface Waves
3.1. Surface waves
3.1.1. Isotropic solid: Rayleigh wave
3.1.2. Anisotropic solid
3.1.3. Piezoelectric crystal
3.2. Interface waves
3.2.1. Isotropic solid-perfect fluid interface
3.2.2. Interface between two isotropic solids
3.3. BleusteinβGulyaev wave
4. Guided Elastic Waves
4.1. Waveguide, group velocity
4.1.1. Elementary planar waveguide
4.1.2. Velocity of a wave packet
4.1.3. Propagation of a Gaussian pulse
4.2. Transverse horizontal waves
4.2.1. Guided TH modes
4.2.2. Love wave
4.2.3. Love wave in an inhomogeneous medium
4.3. Lamb waves
4.3.1. Free isotropic plate
4.3.2. Isotropic plate immersed in a fluid
4.3.3. Free anisotropic plate
4.4. Cylindrical guides
4.4.1. Compressional modes
4.4.2. Flexural modes
4.4.3. Torsional modes
4.4.4. Tubular waveguide
Appendix 1. Differential Operators in Cylindrical and Spherical Coordinates
A1.1. Cylindrical coordinates
A1.2. Spherical coordinates
Appendix 2. Symmetry and Tensors
A2.1. Crystalline structure
A2.1.1. Lattice and atomic structure
A2.1.2. Rows, lattice planes and cells
A2.2. Point symmetry of crystals
A2.2.1. Point symmetry operations
A2.2.2. Point symmetry of lattices: the seven crystal systems
A2.2.3. The 32-point symmetry classes of crystals
A2.3. Representation of physical properties of crystals by tensors
A2.3.1. Change of orthonormal reference axes
A2.3.2. Definition of a tensor
A2.4. Reduction of the number of independent components imposed by the symmetry elements
A2.4.1. Matrices of point symmetry operations
A2.4.2. Effect of a center of symmetry
A2.5. Reduction of the number of independent elastic constants
A2.5.1. Crystals with at least one binary axis
A2.5.2. Crystals with a principal axis An (n > 2)
Appendix 3. Transport of Energy
A3.1. Energy balance
A3.2. Harmonic case
A3.3. Susceptance and free modes
References
Chapter 1
Chapter 2
Chapter 3
Chapter 4
Appendixes
General bibliography
Index
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