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Erschienen in:
Localisation Precursors in Geomaterials? Kapitel lesen Erstes Kapitel lesen

2017 | OriginalPaper | Buchkapitel

Compaction Bands in a Porous Sandstone Sample with Pre-induced Shear Bands

verfasst von : Elli-Maria Charalampidou, Sergei Stanchits, Georg Dresen

Erschienen in: Bifurcation and Degradation of Geomaterials with Engineering Applications

Verlag: Springer International Publishing

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Abstract

Understanding how different modes of deformation bands may interact at the same rock mass is of crucial importance, since such interaction may affect the flow properties within the reservoir rock. In this work we focus on the compaction band nucleation and evolution within a porous sandstone, in which a shear-band has been previously developed. For such a purpose, we performed at the laboratory scale triaxial compression experiments under 20 and 185 MPa confining pressures on a single Bentheim sandstone specimen. Acoustic Emissions (AE) were recorded throughout all experimental stages. AE hypocentre locations and AE source mechanisms were used to describe the spatiotemporal evolution of the developed deformation bands. The shear band evolution was AE controlled. Shear type sources were the prevailing mechanisms up to the peak stress, whereas, the shear band growth was mainly dominated by compressive type sources. The compaction band nucleated at the tip of the pre-existing shear band and evolved towards the circumference of the specimen. A second compaction band nucleated with increasing axial strain at the top part of the specimen and not far from the already developed shear and compaction bands. The dominant mechanisms during the compaction band initiation and formation were compressive type sources.

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Vorheriges Kapitel Localised Deformation of Weakly Cemented Sands: A Case Study
Nächstes Kapitel Modelling Localization on Varying Scales
Literatur
1.
Baud, P., Klein, E., Wong, T.-F.: Compaction localisation in porous sandstones: spatial evolution of damage and acoustic emission activity. J. Struct. Geol. 26, 603–624 (2004)CrossRef
2.
Charalampidou, E.M., Hall, S., Stanchits, S., Lewis, H., Viggiani, G.: Characterisation of shear and compaction bands in a porous sandstone deformed under triaxial compression. Tectonophysics 503, 8–17 (2011)CrossRef
3.
Charalampidou, E.M., Hall, S., Stanchits, S., Viggiani, G., Lewis, H.: Shear-enhanced compaction band identification at the laboratory scale using acoustic and full-field methods. Int. J. Rock Mech. Mining Sci. 67, 240–252 (2014)CrossRef
4.
Eichhubl, P., Hooker, J.N., Laubach, S.E.: Pure and shear-enhanced compaction bands in Aztec sandstone. J. Struct. Geol. 32(12), 1873–1886 (2010)CrossRef
5.
Fossen, H., Schultz, R., Torabi, A.: Conditions and implications for compaction band formation in the Navajo sandstone, Utah. J. Struct. Geol. 33, 1477–1490 (2011)CrossRef
6.
Holcomb, D., Rudnicki, J.W., Issen, K., Sternolf, K.: Compaction localisation in the Earth and the laboratory: state of research and research directions. Acta Geotech. 2, 1–15 (2007)CrossRef
7.
Klein, E., Baud, P., Reuschlé, T., Wong, T.-F.: Mechanical behaviour and failure mode of Bentheim sandstone under triaxial compression. Phys. Chem. Earth. (A) 26(1–2), 21–25 (2001)CrossRef
8.
Klein, E., Reuschlé, T.: A model for the mechanical behaviour of Bentheim sandstone in the brittle regime. Pure. Appl. Geophys. 160, 833–849 (2003)CrossRef
9.
Leonard, M., Kennett, B.L.N.: Multi-component autoregressive techniques for the analysis of seismograms. Phys. Earth Planet. Inter. 113, 247–263 (1999)CrossRef
10.
Lockner, D.A., Byerlee, J.D., Kuksenko, V., Ponomarev, A., Sidorin, A.: Quasi-static fault growth and shear fracture energy in granite. Nature 350, 39–42 (1991)CrossRef
11.
Mollema, P.N., Antonellini, M.A.: Compaction bands: a structural analog for antimode I cracks in Aeolian sandstone. Tectonophysics 267, 209–228 (1996)CrossRef
12.
13.
Stanchits, S., Vinciguerra, S., Dresen, G.: Ultrasonic velocities, acoustic emission characteristics and crack damage of basalt and granite. Pure. Appl. Geophys. 163(5–6), 975–994 (2006)CrossRef
14.
Stanchits, S., Fortin, J., Guéguen, Y., Dresen, G.: Initiation and propagation of compaction bands in dry and wet Bentheim sandstone. Pure. Appl. Geophys. 166, 843–868 (2009)CrossRef
15.
Sun, W.C., Andrade, J.E., Rudnicki, J.W., Eichhubl, P.: Connecting microstructural attributes and permeability from 3D tomographic images of in situ shear-enhanced compaction bands using multiscale computations. Geophys. Res. Lett. 38, 201 (2011). doi:10.​1029/​2011GL047683 CrossRef
16.
Vajdova, V., Wong, T.-F.: Incremental propagation of discrete compaction bands: acoustic emission and microstructural observations on circumferentially notched samples of Bentheim. Geophys. Res. Lett. 30(14), 1775 (2003). doi:10.​1029/​2003GL017750 CrossRef
17.
Vajdova, V., Baud, P., Wong, T.-F.: Permeability evolution during localised deformation in Bentheim sandstone. J. Geophys. Res. 109, B10406 (2004)
18.
Zang, A., Wagner, F.C., Stanchits, S., Dresen, G., Andresen, R., Haidekker, M.A.: Source analysis of acoustic emissions in Aue granite cores under symmetric and asymmetric compressive loads. Goephys. J. Int. 135, 1113–1130 (1998)CrossRef
Metadaten
Titel
Compaction Bands in a Porous Sandstone Sample with Pre-induced Shear Bands
verfasst von
Elli-Maria Charalampidou
Sergei Stanchits
Georg Dresen
Copyright-Jahr
2017
Buch
Bifurcation and Degradation of Geomaterials with Engineering Applications

Print ISBN: 978-3-319-56396-1

Electronic ISBN: 978-3-319-56397-8

Copyright-Jahr: 2017

DOI
https://doi.org/10.1007/978-3-319-56397-8_48