## Treatise on materials science and technology, Volume 3 |

### From inside the book

Results 1-3 of 12

Page 45

100 1.102 measurements and using these values to calculate the variation of the

wave- speed ratios as a function of

specimen of the same crystalline material, the three wave speeds can be ...

100 1.102 measurements and using these values to calculate the variation of the

wave- speed ratios as a function of

**crystallographic orientation**. Then, for a testspecimen of the same crystalline material, the three wave speeds can be ...

Page 46

The

determined directly by placing the tracing paper atop Fig. 1 8 and reading off the

angular values associated with m and n at the intersection point of the three

contour ...

The

**crystallographic orientation**of the test direction in the crystal may now bedetermined directly by placing the tracing paper atop Fig. 1 8 and reading off the

angular values associated with m and n at the intersection point of the three

contour ...

Page 47

Limits of

velocity measurement for aluminum: (a) v to 1 .00%, orientation within 28°; (b) v

to 0.50%, orientation within 5°; (c) v to 0.25%, orientation within 2°; (d) v to 0.10%,

...

Limits of

**crystallographic orientation**associated with various accuracies ofvelocity measurement for aluminum: (a) v to 1 .00%, orientation within 28°; (b) v

to 0.50%, orientation within 5°; (c) v to 0.25%, orientation within 2°; (d) v to 0.10%,

...

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### Common terms and phrases

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