Treatise on materials science and technology, Volume 3 |
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Page 33
Deviation of energy-flux vectors from wave normals for quasilongitudinal waves
V1 for aluminum [after Hinton and Green (45)]. Fig. 10. Deviation of energy-flux
vectors from wave normals for quasitransverse waves v2 for aluminum [after ...
Deviation of energy-flux vectors from wave normals for quasilongitudinal waves
V1 for aluminum [after Hinton and Green (45)]. Fig. 10. Deviation of energy-flux
vectors from wave normals for quasitransverse waves v2 for aluminum [after ...
Page 45
Let us illustrate the method by determining the crystallographic orientation of a
cubic aluminum crystal. In Figs. 15, 16, and 17 are plotted values of (vjv2), (vjv3),
and (v3/v2), respectively, using the velocity values compiled by Hinton and Green
...
Let us illustrate the method by determining the crystallographic orientation of a
cubic aluminum crystal. In Figs. 15, 16, and 17 are plotted values of (vjv2), (vjv3),
and (v3/v2), respectively, using the velocity values compiled by Hinton and Green
...
Page 132
These authors also used measurements of the amplitudes of the fundamental
and second harmonic to determine the ratio of the nonlinear and linear
coefficients in Hooke's law for cubic single crystals of aluminum, NaCl, KC1, LiF
and for ...
These authors also used measurements of the amplitudes of the fundamental
and second harmonic to determine the ratio of the nonlinear and linear
coefficients in Hooke's law for cubic single crystals of aluminum, NaCl, KC1, LiF
and for ...
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Alers aluminum Andreatch anisotropic Appl axis calculated compressive stress copper crystallographic orientation cubic crystals determine direction cosines displacement gradients displacements along 001 elastic moduli elastic wave propagation energy-flux vector equation of motion experimental germanium given by Eq hydrostatic pressure hydrostatic pressure longitudinal hydrostatic pressure transverse ideal orientation interaction isotropic solid linear elastic wave longitudinal wave longitudinal wave propagating materials mode transverse wave nonlinear elastic wave obtain Papadakis particle displacements phonons Phys plane wave pressure longitudinal wave pressure transverse wave pure mode longitudinal pure mode transverse quasitransverse waves rolling direction rolling plane second harmonic second-order elastic constants shear wave single crystals six third-order elastic stress along 001 stress along 110 Substituting Eqs symmetry test specimen texture third-order elastic constants Thurston and Brugger transducer transverse wave ultrasonic beam ultrasonic pulse uniaxial stress values wave along 100 wave normal wave speeds wave velocity Young's modulus