Title of article
Ultrasonic Velocities, Acoustic Emission Characteristics and Crack Damage of Basalt and Granite
Author/Authors
Sergei Stanchits، نويسنده , , Sergio Vinciguerra، نويسنده , , Georg Dresen ، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2006
Pages
20
From page
975
To page
994
Abstract
Acoustic emissions (AE), compressional (P), shear (S) wave velocities, and volumetric strain
of Etna basalt and Aue granite were measured simultaneously during triaxial compression tests.
Deformation-induced AE activity and velocity changes were monitored using twelve P-wave sensors and
eight orthogonally polarized S-wave piezoelectric sensors; volumetric strain was measured using two pairs of
orthogonal strain gages glued directly to the rock surface. P-wave velocity in basalt is about 3 km/s at
atmospheric pressure, but increases by > 50% when the hydrostatic pressure is increased to 120 MPa. In
granite samples initialP-wave velocity is 5 km/s and increases with pressure by<20%. The pressure-induced
changes of elastic wave speed indicate dominantly compliant low-aspect ratio pores in both materials, in
addition Etna basalt also contains high-aspect ratio voids. In triaxial loading, stress-induced anisotropy of Pwave
velocities was significantly higher for basalt than for granite, with vertical velocity components being
faster than horizontal velocities. However, with increasing axial load, horizontal velocities show a small
increase for basalt but a significant decrease for granite. Using first motion polarity we determinedAE source
types generated during triaxial loading of the samples. With increasing differential stressAEactivity in granite
and basalt increased with a significant contribution of tensile events. Close to failure the relative contribution
of tensile events and horizontal wave velocities decreased significantly. A concomitant increase of doublecouple
events indicating shear, suggests shear cracks linking previously formed tensile cracks.
Keywords
acoustic emission , ultrasonic velocity , Fracture , rock.
Journal title
Pure and Applied Geophysics
Serial Year
2006
Journal title
Pure and Applied Geophysics
Record number
429951
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