The International Information Center for Geotechnical Engineers

In Situ Shear Wave Velocity Measurements in Rocks - References

 

7.0 References

 

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ASTM Standard D2845. (2008). “Laboratory Determination of Pulse Velocities and Ultrasonic Elastic Constants of Rock.” ASTM International, West Consohocken, PA.

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ASTM Standard D7128. (2010). “Standard Guide for Using the Seismic Reflection Method for Shallow Subsurface Investigation.” ASTM International, West Consohocken, PA.

ASTM Standard D7400. (2014). “Standard Test Methods for Downhole Seismic Testing.” ASTM International, West Consohocken, PA.

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Harrison, H. D., and Hiltunen, D. R. (2004). “Characterization of Karst Terrain via SASW Seismic Wave Method.” Sinkholes and the Eng. And Env. Impacts of Karst, ASCE.

Hiltunen, D. R. (2005). “Practical Applications of Engineering Geophysics to Help Solve Tough Problems and Lead to Improved Technologies.” Soil Dynamics Symposium in Honor of Professor Richard D. Woods, GSP 134, ASCE.

Ivankina, T. I., Kern, H. M., and Nikitin, A. N. (2005). “Directional Dependence of P- and S-wave Propagation and Polarization in Foliated Rocks from the Kola Superdeep Well: Evidence from Laboratory Measurements and Calculations Based on TOF Neutron Diffraction.” Tectonophysics, (407), 25-42.

Kitsunezaki, C. (1980). “A New Method for Shear Wave Logging.” Geophysics, 45, 1489-1506.

Koeperich, E. A. (1979). “Shear Wave Velocities Determined from Long and Short-spaced Borehole Acoustic Devices.” Soc. Petr. Eng., 8237.

Le, T. M. H., Eiksund, G. R., Strom, P. J., and Saue, M. (2014). “Geological and Geotechnical Characterization for Offshore Wind Turbine Foundations: A Case Study of the Sheringham Shoal Wind Farm.” Engineering Geology, 177, 40-53.

Lingle, R., and Jones, A. H. (1977). “Comparison of Log and Laboratory Measured P-wave and S-wave Velocities.” Soc. Prof. Well Log Analysts, 18th Annual Logging Symposium.

Misra, A., and Marangos, O. (2011). “Rock-Joint Micromechanics: Relationship of Roughness to Closure and Wave Propagation.” Int. J. of Geomechanics, 11, 431-439.

Murvosh, H., Luke, B., and Calderon-Macias, C. (2013). “Shallow-to-deep Shear Wave Velocity Profiling by Surface Waves in Complex Ground for Enhanced Seismic Microzonation of Las Vegas, Nevada.” Soil Dynamics and Earthquake Engineering, 44, 168-182.

Nettles, S., Jarret, B., and Cross, E. C. (2010). “Application of Surface Geophysics for Providing a Detailed Geotechnical Assessment of a Large Resort Development Site in Anguilla, BWI.” GeoFlorida 2010, GSP 199, ASCE.

Niehoff, J. W. (2010). “The Use of Geophysical Methods to Detect Abandoned Mine Workings.” GeoTrends 2010, ASCE.

Nunziata, C., Mele, R., and Natale, M. (1999). “Shear Wave Velocities and Primary Influencing Factors of Camp Flegrei-Neapolitan Deposits.” Engineering Geology, 54, 299-312.

Okada, H. (2003). “The Microtremor Survey Method, Geophysical Monograph Series No. 12.” Society of Exploration Geophysicists, Tulsa, OK.

Park, C.B., Miller, R.D., and Xia, J. (1998). “Imaging Dispersion Curves of Surface Waves on Multi-channel Record.” 68th Ann. Internat. Mtg. Soc. Expl. Geophys., Expanded Abstracts, 874.

Park, C. S., Jung, J. W., and Mok, Y. J. (2008). “Development and Applications of In-Hole Seismic Method to Measure Shear Wave Velocity of Subsurface Materials.” Geotechnical Earthquake Engineering and Soil Dynamics IV, GSP 181, ASCE.

Parker, E. H. Jr., and Hawman, R. B. (2012). “Multichannel Analysis of Surface Waves (MASW) in Karst Terrain, Southwest Georgia: Implications for Detecting Anomalous Features and Fracture Zones.” J. of Eng. And Env. Geophysics, 17(3), 129-150.

Pelekis, P. C., and Athanasopoulos, G. A. (2013). “Seismic Microzonation of CHantia, Crete (Greece) Based on SASW Measurements and Non-linear Site Response Analyses.” Soil Dynamics and Earthquake Engineering, 53, 145-159.

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.

Robison, J. L., and Anderson, N. L. (2008). “Geophysical Investigation of the Delaware Avenue Sinkhole Nixa, Missouri.” Sinkholes and the Eng. And Env. Impacts of Karst, ASCE.

Roblee, C. J., Stokoe, K. H., II, Fuhriman, M. D., and Nelson, P. P. (1994). "Crosshole SH-Wave Measurements in Rock and Soil." Dynamic Geotechnical Testing II, ASTM STP 1213, Ebelhar, R. J., Drnevich, V. P., and Kutter, B. L., Eds.

Roy, S., and Stewart, R. R. (2012). “Near-surface Seismic Investigation of Barringer (Meteor) Crater, Arizona.” J. of Env. and Eng. Geophysics, 17(3), 117-127.

Rucker, M. L., Crum, G., Meyers. R., and Lommler, J. C. (2005). “Geophysical Identification of Evaporite Dissolution Structures Beneath a Highway Alignment.” Sinkholes and the Eng. And Env. Impacts of Karst, ASCE.

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.

Santamarina, J. C., and Fratta, D. (1998). “Introduction to Discrete Signals and Inverse Problems in Civil Engineering.” ASCE Press, Reston, 327p.

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.

Stokoe, K.H., II and Santamarina, J.C. (2000). “Seismic-wave Based Testing in Geotechnical Engineering.” Plenary Paper, International Conference on Geotechnical and Geological Engineering, GeoEng 2000, Melbourne, Australia, pp. 1490-1536.

Stokoe, K. H., II, Joh, S. –H., and Woods, R. D. (2004). “Some Contributions of in Situ Geophysical Measurements to Solving Geotechnical Engineering Problems.” International Conference on Site Characterization, Porto, Portugal.

Takahashi, T. (2004). “ISRM Suggested Methods for Land Geophysics in Rock Engineering.” Int. J. of Rock Mech. And Mining Sci., 41, 885-914.

Takahashi, T., Takeuchi, T., and Sassa, K. (2006). “ISRM Suggested Methods for Borehole Geophysics in Rock Engineering.” Int. J. of Rock Mech. And Mining Sci., 43, 337-368.

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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