Handbook of Elastic Properties of Solids, Liquids, and Gases: Dynamic methods for measuring the elastic properties of solidsMoises Levy, Henry E. Bass, Richard R. Stern, Veerle Keppens This book will discuss the propagation of sound in newly discovered or created materials, and in common materials which are being investigated with a fresh outlook. This four-volume set is intended for university industrial and government libraries serving engineering and research personnel working in acoustics. (Midwest). |
Contents
Pulse Superposition PulseEcho Overlap and Related Techniques | 39 |
Ultrasonic ThroughTransmission Method for Measuring | 67 |
Point SourcePointReceiver Methods | 87 |
Copyright | |
19 other sections not shown
Common terms and phrases
acoustic microscopy acoustoelastic amplitude angle angular anisotropic attenuation axis beam Brillouin scattering bulk waves calculated components cubic density dependence detection detector determined diamond anvil diamond anvil cell direction dispersion curves displacement echoes effective elastic elastic moduli elastic properties elasticity tensor EMAT energy equation error excitation experimental film Green's function group velocity incident intensity isotropic laser layer longitudinal longitudinal wave materials measurements method modes neutron nonlinear normal obtained optical parameters peaks phase velocity phonon Phys piezoelectric plane plate polarization pressure Properties of Solids PSAW pulse Rayleigh waves resonant frequencies sample SAW velocity shear shown in Figure signal silicon sinĀ² single crystals specimen spectrum stress substrate surface acoustic waves surface wave symmetry technique temperature tensor thermal diffuse scattering thickness third-order elastic constants transducer transverse ultrasonic values variation vector vibrations wave propagation wave velocity wavelength wavevector x-ray diffraction Young's modulus