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Ojala et al. 2004
Ojala, I.O., Ngwenya, B.T. and Main, I.G. (2004). Loading rate dependence of permeability evolution in porous aeolian sandstones. Journal of Geophysical Research 109: doi: 10.1029/2002JB002347. issn: 0148-0227.

Mechanical properties of rocks are characterized by their notable dependence on the applied deformation rate. However, little is known about the strain rate dependence of fluid flow properties since most laboratory tests are conducted using a single, high strain rate. We have investigated the effect of loading rate on the permeability of porous sandstones by carrying out triaxial compression tests at four different temperatures and strain rates with continuous monitoring of permeability, acoustic emission (AE), and pore fluid chemistry. All tests are characterized by an initial permeability decrease due to inferred compaction of favorably oriented cracks. The amount of initial permeability reduction increases with decreasing strain rate, thus implying a more efficient initial compaction at slower strain rates. At a later stage of loading, permeability correlates with stress, ion concentration, or AE damage depending on the strain rate used. High strain rate tests are characterized by a positive power law or logarithmic correlation between permeability and AE damage. At slow strain rates, permeabilities decrease exponentially with mean effective stress and axial strain for the Locharbriggs sandstone. The Clashach sandstone exhibits a linear correlation between permeability and exit pore fluid concentrations (Si, Mg, Fe, Al) if a slow strain rate is used. These observations have important implications for the applicability of room temperature, high strain rate laboratory data to the conditions that prevail in the Earth's crust.

BACKGROUND DATA FILES

Abstract

Keywords
Geochemistry, Low-temperature geochemistry, Physical Properties of Rocks, Acoustic properties, Physical Properties of Rocks, Fracture and flow, Physical Properties of Rocks, Permeability and porosity, permeability, deformation rate, acoustic emission
Journal
Journal of Geophysical Research
http://www.agu.org/journals/jb/
Publisher
American Geophysical Union
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