• 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