论文信息 - Nonlinear Ultrasonic Characterization of Thermally Damaged Westerly Granite

Nonlinear Ultrasonic Characterization of Thermally Damaged Westerly Granite

Thermally damaged Westerly granite samples are probed by means of linear and nonlinear ultrasonic methods. With the increase of material damage, linear longitudinal wave velocity decreased down to nearly 50% of its initial value. Nonlinear ultrasonic measurements are performed by emitting 1 MHz tonebursts at increasing excitation amplitude. For increasing damage, the obtained waveform appeared to be the second time derivative of the envelope of the emitted toneburst, revealing a self-demodulation effect. This effect, occuring in a nonlinear manner for increasing excitation amplitude, allows to characterize the material damage with high sensitivity. A simple theoretical model, taking into account a nonlinear stress/strain relationship of the medium, described qualitatively the observed experimental results.

[1] Chen Yong,et al. Thermally induced acoustic emission in westerly granite , 1980 .

[2] Smith,et al. Universal slow dynamics in granular solids , 2000, Physical review letters.

[3] T. Reuschlé,et al. The effect of heating on the microstructural evolution of La Peyratte granite deduced from acoustic velocity measurements , 2006 .

[4] Tomoo Kamakura,et al. Two Model Equations for Describing Nonlinear Sound Beams , 2004 .

[5] M. H. B. Nasseri,et al. Coupled evolutions of fracture toughness and elastic wave velocities at high crack density in thermally treated Westerly granite , 2007 .

[6] P. J. Westervelt. Parametric Acoustic Array , 1963 .

[7] Paul A. Johnson,et al. Nonlinear elasticity and stress‐induced anisotropy in rock , 1996 .

[8] J. Fredrich,et al. Micromechanics of thermally induced cracking in three crustal rocks , 1986 .

[9] Mark Kachanov,et al. Elastic Solids with Many Cracks and Related Problems , 1993 .

[10] Mark F. Hamilton,et al. Self‐demodulation of amplitude‐ and frequency‐modulated pulses in a thermoviscous fluid , 1993 .

[11] Bd Thompson,et al. Quantifying Damage, Saturation and Anisotropy in Cracked Rocks by Inverting Elastic Wave Velocities , 2006 .