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In Situ Shear Wave Velocity Measurements in Rocks - References


7.0 References


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Punturo, R., Kern, H., Cirrincione, R., Mezzoleni, P., and Pezzino, A. (2005). “P- and S-wave Velocities and Densities in Silicate and Calcite Rocks from the Peloritani Mountains, Sicily (Italy): The Effect of Pressure, Temperature, and the Direction of Wave Propagation.” Tectonophysics, (409), 55-72.

Rabbel, W., Siegesmund, S., Weiss, T., Pohl, M., and Bohlen, T. (1998). “Shear Wave Anisotropy of Laminated Lower Crust Beneath Urach (SW Germany): A Comparison with Xenoliths and with Exposed Lower Crustal Sections.” Tectonophysics, 298, 337-356.

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Sahadewa, A., Zekkos, D., and Woods, R. D. (2012). “Observations from the Implementation of a Combined Active and Passive Surface Wave Based Methodology.” Proc. State of the Art and Practice in Geotechnical Engineering (Geocongress 2012), 2786-2795.

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Stokoe, K.H., II, Wright, S.G., Bay, J.A. and Roesset, J. M. (1994). “Characterization of Geotechnical Sites by SASW Method.” Geophysical Characteristics of Sites, ISSMFE, Technical Committee 10 for XIII ICSMFE, International Science Publishers, New York, pp. 15-25.

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Tamrakar, P., and Luke, B. (2013). “Feasibility of Approximating Depth to Shallow Bedrock Directly from the Rayleigh Wave Dispersion Curve.” Geotechnical Testing Journal, 36(6).

Winterstein, D. F., and Paulsson, B. N. P. (1990). “Velocity Anisotropy in Shale Determined from Crosshole Seismic and Vertical Seismic Profile Data.” Geophysics, 55(4), 470-479.

Winterstein, D. F., and Meadows, M. A. (1991). “Shear-wave Polarizations and Subsurface Stress Directions at Lost Hills Field.” Geophysics, 56(9), 1331-1348.

Winterstein, D. F. (1992). “How Shear-wave Properties relate to rock fractures: Simple Cases.” Geophysics, The Leading Edge of Exploration, 1992.






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