TY - GEN
T1 - Characterization of electrical anisotropy for cuttability of rocks using geophysical resistivity measurements
AU - Caglar, I.
AU - Avsar, U.
PY - 2007
Y1 - 2007
N2 - The rock hardness, strength, fracturing and anisotropy property parameters are the main factors controlling cuttability of the rocks. The orientations of elongated grains cause considerable variations in hardness, anisotropy and layering parameters of the rocks. The resistivity sounding technique (DES) is used to determine anisotropy resulted by the rock's fracturing, pressure and metamorphism properties. We calculated typical polar diagrams by modelling using various anisotropy values and electrode arrays for comparing with field measurements. Based on the synthetic data it is clearly seen that dipole azimuthal sounding was most determined electrical anisotropy. To understand the reason of these effects and to estimate suitable direction for easily cuttability of the rock, resistivity soundings using dipole azimuthal array were applied on karstified limestones covered with alluvial units around Kozyata quarry, Istanbul. Dipole azimuthal soundings were made on 10°, 55°, 100°, 140° azimuths with spacing r=10-90 meters. The azimuthal diagrams in the ranges of 88-950 ohm-m were indicated characteristic orientations as the anisotrophy indicator at various depth levels within limestone. Based on the azimuthal diagrams, the direction ∼120° (from north) where apparent resistivit considerably decreased to lower values towards deep levels (>15 m) within limestone is interpreted as more suitable extension for easy cuttability.
AB - The rock hardness, strength, fracturing and anisotropy property parameters are the main factors controlling cuttability of the rocks. The orientations of elongated grains cause considerable variations in hardness, anisotropy and layering parameters of the rocks. The resistivity sounding technique (DES) is used to determine anisotropy resulted by the rock's fracturing, pressure and metamorphism properties. We calculated typical polar diagrams by modelling using various anisotropy values and electrode arrays for comparing with field measurements. Based on the synthetic data it is clearly seen that dipole azimuthal sounding was most determined electrical anisotropy. To understand the reason of these effects and to estimate suitable direction for easily cuttability of the rock, resistivity soundings using dipole azimuthal array were applied on karstified limestones covered with alluvial units around Kozyata quarry, Istanbul. Dipole azimuthal soundings were made on 10°, 55°, 100°, 140° azimuths with spacing r=10-90 meters. The azimuthal diagrams in the ranges of 88-950 ohm-m were indicated characteristic orientations as the anisotrophy indicator at various depth levels within limestone. Based on the azimuthal diagrams, the direction ∼120° (from north) where apparent resistivit considerably decreased to lower values towards deep levels (>15 m) within limestone is interpreted as more suitable extension for easy cuttability.
UR - http://www.scopus.com/inward/record.url?scp=85085402528&partnerID=8YFLogxK
U2 - 10.3997/2214-4609.20146631
DO - 10.3997/2214-4609.20146631
M3 - Conference contribution
AN - SCOPUS:85085402528
SN - 9073781817
SN - 9789073781818
T3 - Near Surface 2007 - 13th European Meeting of Environmental and Engineering Geophysics
BT - Near Surface 2007 - 13th European Meeting of Environmental and Engineering Geophysics
PB - European Association of Geoscientists and Engineers, EAGE
T2 - 13th European Meeting of Environmental and Engineering Geophysics of the Near Surface Geoscience Division of EAGE, Near Surface 2007
Y2 - 3 September 2007 through 5 September 2007
ER -