Geophysical Probing in Geotechnical Investigation for Shear Wave Velocity Assessment
Yıl 2022,
Cilt: 4 Sayı: 1, 63 - 68, 01.11.2021
Shahzada Khurram
Perveiz Khalid
Zia Ud Din
Öz
In near surface geology attenuation and shear wave velocity are main factors in field of earthquake engineering to determine the characteristics of soil and subsurface material. Before construction geotechnical and geophysical tools were used to find the characteristics of subsurface. In this study, a single bore was drilled up to 50 m depth at site for material assessment and water table measurement. Silty clayey and clayey silt material was found at several depths. Downhole seismic survey was conducted on this single bore whole having dia 12 inches. On the basis of this geophysical tool, four layers were marked. The shear wave velocity increases with depth at 7 m is 250 m/s and compression wave are 430 m/s due to increase depth compressional wave increases up to 1750 m/s and having same rate at 50 m depth of borehole. This means under subsurface water is main carriers of the P wave at constant velocity. Whereas shear wave velocity regularly increases from 250 m/sec to 550 m/sec at 50 m. The rapidly increase of shear waves velocity indicates better compacted soil at depth which is good for foundation designing as well as earthing system.
Kaynakça
- Adepelumi, A.A., Olorunfemi, M.O., 2000. Engineering geological and geophysical investigation of the reclaimed Lekki Peninsula, Lagos, Southwest Nigeria. Bulletin of Engineering, Geology and the Environment, 58 (2), 125-132.
- Akintorinwa, O.J., Adeusi, F.A., 2009. Integration of geophysical and geotechnical investigation for a proposed lecture Room Complex at the Federal University of Technology, Akure SW, Nigeria. Ozean Journal of Applied Sciences 2 (3), 241-254.
- Anomohanran, O., 2013. Downhole seismic refraction survey of weathered layer characteristics in Escravos, Nigeria. American Journal of Applied Sciences 11 (3), 371-380.
- ASTM D 1586, 2011. Standard Test Method for Standard Penetration Test (SPT) and Split-Barrel Sampling of Soils.
- ASTM D 7400, 2011. Standard Test Methods for Downhole Seismic Testing.
- Edgell, H.S., 1990. Karst in north eastern Saudi Arabia. Journal of King Abdul Aziz University. First Saudi Symposium on Earth Sciences, 81-94.
- Grant, F.S., West, G.F., 1965. Interpretation theory in applied geophysics. New York, McGraw Hill.
- Hunter, J.A., Benjumea, B., Harris, J.B., Miller, R.D., Pullan, S.E., Burns, R.A., Good, R.L., 2002. Surface and downhole shear wave seismic methods for thick soil site investigations. Soil Dynamics and Earthquake Engineering 22, 931-941.
- Jamiolkowski, M., 2012. Role of geophysical testing in geotechnical site characterization. Soils and Rocks, São Paulo 35 (2), 1-21.
- Olorunfemi, M.O., Meshida, E.A., 1987. Engineering geophysics and its application in engineering site investigation - Case study from Ile-Ife area. Nigerian Engineering 22 (2), 57-66.
- Oyedele, K.F., Oladele, S., Adedoyin, O., 2011. Application of geophysical and geotechnical methods to site characterization for construction purposes at Ikoyi Lagos, Nigeria. Journal of Earth Sciences and Geotechnical Engineering 1, 87-100.
- Parolai, S., Bindi, D., Ansal, A., Kurtulus, A., Strollo1, A., Zschau, J., 2010. Determination of shallow S-wave attenuation by down-hole waveform deconvolution: a case study in Istanbul (Turkey). Geophysical Journal International 181 (2), 1147-1158.
- Patrick, J.M., 1990. Digital borehole logging instrumentation and software, A system approach to design and implementation. Proceedings of the symposium on the application of geophysics to engineering and environmental problems, SAGEEP 90, Colorado, pp 155-168.
- Rahiman, H.I.T., 2013. Engineering geophysics for geotechnical characterization of LNG Processing Plant sites. 23rd International Geophysical Conference and Exhibition, 11-14 August 2013- Melbourne, Australia.
- Sebastiano, F., 2012. Combined use of geophysical methods in site characterization. 4th International Conference on Geotechnical and Geophysical Site Characterization, 18-21 September 2012, Recif Brazil.
- Seed, H.B., Idris, I.M., Arango, I., 1983. Evaluation of liquefaction potential using field performance data. Journal of Geotechnical Engineering 109 (3), 458-482.
- Soupios, P.M., Georgakopoulos, P., Papadopoulos, N., 2007. Use of engineering geophysics to investigate a site for a building foundation. Journal of Geophysics and Engineering 4 (1), 94-103.
- Soupios, P.M., Papazachos, C.B., Vargemezis, G., Fikos, I., 2005. Application of modern seismic method for geotechnical site characterization. Workshop in Geo-environment and Geotechnics (Milos Island, Greece, 12-14 September 2005), 163-70.
Yıl 2022,
Cilt: 4 Sayı: 1, 63 - 68, 01.11.2021
Shahzada Khurram
Perveiz Khalid
Zia Ud Din
Kaynakça
- Adepelumi, A.A., Olorunfemi, M.O., 2000. Engineering geological and geophysical investigation of the reclaimed Lekki Peninsula, Lagos, Southwest Nigeria. Bulletin of Engineering, Geology and the Environment, 58 (2), 125-132.
- Akintorinwa, O.J., Adeusi, F.A., 2009. Integration of geophysical and geotechnical investigation for a proposed lecture Room Complex at the Federal University of Technology, Akure SW, Nigeria. Ozean Journal of Applied Sciences 2 (3), 241-254.
- Anomohanran, O., 2013. Downhole seismic refraction survey of weathered layer characteristics in Escravos, Nigeria. American Journal of Applied Sciences 11 (3), 371-380.
- ASTM D 1586, 2011. Standard Test Method for Standard Penetration Test (SPT) and Split-Barrel Sampling of Soils.
- ASTM D 7400, 2011. Standard Test Methods for Downhole Seismic Testing.
- Edgell, H.S., 1990. Karst in north eastern Saudi Arabia. Journal of King Abdul Aziz University. First Saudi Symposium on Earth Sciences, 81-94.
- Grant, F.S., West, G.F., 1965. Interpretation theory in applied geophysics. New York, McGraw Hill.
- Hunter, J.A., Benjumea, B., Harris, J.B., Miller, R.D., Pullan, S.E., Burns, R.A., Good, R.L., 2002. Surface and downhole shear wave seismic methods for thick soil site investigations. Soil Dynamics and Earthquake Engineering 22, 931-941.
- Jamiolkowski, M., 2012. Role of geophysical testing in geotechnical site characterization. Soils and Rocks, São Paulo 35 (2), 1-21.
- Olorunfemi, M.O., Meshida, E.A., 1987. Engineering geophysics and its application in engineering site investigation - Case study from Ile-Ife area. Nigerian Engineering 22 (2), 57-66.
- Oyedele, K.F., Oladele, S., Adedoyin, O., 2011. Application of geophysical and geotechnical methods to site characterization for construction purposes at Ikoyi Lagos, Nigeria. Journal of Earth Sciences and Geotechnical Engineering 1, 87-100.
- Parolai, S., Bindi, D., Ansal, A., Kurtulus, A., Strollo1, A., Zschau, J., 2010. Determination of shallow S-wave attenuation by down-hole waveform deconvolution: a case study in Istanbul (Turkey). Geophysical Journal International 181 (2), 1147-1158.
- Patrick, J.M., 1990. Digital borehole logging instrumentation and software, A system approach to design and implementation. Proceedings of the symposium on the application of geophysics to engineering and environmental problems, SAGEEP 90, Colorado, pp 155-168.
- Rahiman, H.I.T., 2013. Engineering geophysics for geotechnical characterization of LNG Processing Plant sites. 23rd International Geophysical Conference and Exhibition, 11-14 August 2013- Melbourne, Australia.
- Sebastiano, F., 2012. Combined use of geophysical methods in site characterization. 4th International Conference on Geotechnical and Geophysical Site Characterization, 18-21 September 2012, Recif Brazil.
- Seed, H.B., Idris, I.M., Arango, I., 1983. Evaluation of liquefaction potential using field performance data. Journal of Geotechnical Engineering 109 (3), 458-482.
- Soupios, P.M., Georgakopoulos, P., Papadopoulos, N., 2007. Use of engineering geophysics to investigate a site for a building foundation. Journal of Geophysics and Engineering 4 (1), 94-103.
- Soupios, P.M., Papazachos, C.B., Vargemezis, G., Fikos, I., 2005. Application of modern seismic method for geotechnical site characterization. Workshop in Geo-environment and Geotechnics (Milos Island, Greece, 12-14 September 2005), 163-70.