An exploratory study of the seismic properties of thermally cracked, fluid- saturated aggregates of sintered glass beads

Yang Li; Melissa Olin; Andrew Clark; Ian Jackson

doi:10.1071/ASEG2013ab057

ISSN: 2202-0586
E-ISSN:

oa An exploratory study of the seismic properties of thermally cracked, fluid- saturated aggregates of sintered glass beads
Authors Yang Li^a, Melissa Olin^b, Andrew Clark^b and Ian Jackson^c
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^a Research School of Earth Sciences Australian National University, Canberra, , ACT, Australia, [email protected] ^b Research School of Earth Sciences Department of EngineeringAustralian National University, Canberra, , ACT, Australia ^c Research School of Earth Sciences Australian National University, Canberra, , ACT, Australia, [email protected]
Publisher: Australian Society of Exploration Geophysicists
Source: ASEG Extended Abstracts, Volume 2013, Issue ASEG2013 - 23rd Geophysical Conference, Dec 2013, p. 1 - 4
DOI: https://doi.org/10.1071/ASEG2013ab057
- Published online: 01 Dec 2013

Abstract

A synthetic rock analogue with simple microstructure was used to advance our understanding of the influence of cracks and pore fluids on seismic properties. The glass beads with ~ 300 μm diameter were sintered near the glass transition with average 1~2% porosity and subsequently quenched from high temperature into water at room temperature to introduce cracks with uniformly low aspect ratio α ~ 0.0007. Jackson-Paterson attenuation apparatus, with independently controlled confining and pore-fluid pressure systems, was used for both torsional and flexural mode forced oscillations at seismic frequencies to extract shear and Young’s modulus respectively, with or without the presence of pore fluids (e.g. argon, water) of varying viscosities. By perturbing the pore pressure at either end of the cracked specimen by ~5 MPa, permeability was obtained by analysing the evolution curve for pore fluid re- equilibration. Shear modulus is found lower with longer oscillation periods for the cracked and argon pore fluid saturated material possibly indicating the transition from the saturated isolated to saturated isobaric regime, with minimal strain-energy dissipation 1/Q < 0.003. The averaged elastic moduli for different oscillation periods and permeability are discovered to be extremely sensitive to variation of effective pressure. The crack closure effects can be observed easily at the effective pressure level at ~ Eα, consistent with the theoretical prediction.

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References

Fortin, J., Schubnel, A., and Gueguen, Y., 2005, Elastic wave velocities and permeability evolution during compaction of Bleurswiller sandstone: International Jorunal of Rock Mechanics & Mining Sciences, 42, 873-889.
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Jackson, I., Schijns, H., Schmitt, D. R., Mu, J. and Delmenico, A., 2011, A versatile facility for laboratory studies of viscoelastic and poroelastic behaviour of rocks: Review of Scientific Instruments, 82, 064501.
Lu, C., 1996, Shear mode anelasticity of thermally cracked and fluid-saturated rocks: Ph.D. Thesis, Australian National University
Lu, C. and Jackson, I., 1998, Seismic frequency laboratory measurements of shear mode viscoelasticity in crustal rocks, Part II, Thermally stressed quartzite and granite: Pure and Applied Geophysics, 153, 441-473.
Lu C., and Jackson I., 2006, Low-frequency seismic properties of thermally cracked and argon-saturated granite: Geophysics, 71(6), 147-159.
Olin M., 2010, Low-frequency seismic properties of synthetic sandstone: Bachelor Thesis, Australian National University.
Walsh J.B., 1965, The effect of cracks on the compressibility of rocks: Journal of Geophysical Research, 70, 381-389.
Schijns, H., Jackson, I., and Schmitt, D., 2012, Laboratory measurements of frequency-dependent seismic properties of cracked and fluid-saturated media: 22nd Meeting, ASEG, Brisbane, Extended Abstracts.
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/content/journals/10.1071/ASEG2013ab057

Article Type: Research Article

Keyword(s): dispersion; glass beads; poroelasticity; rock physics; seismic properties

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oa An exploratory study of the seismic properties of thermally cracked, fluid- saturated aggregates of sintered glass beads

Abstract

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