2019
DOI: 10.1111/1365-2478.12864
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Effects of pore fluids on quasi‐static shear modulus caused by pore‐scale interfacial phenomena

Abstract: It is evident from the laboratory experiments that shear moduli of different porous isotropic rocks may show softening behaviour upon saturation. The shear softening means that the shear modulus of dry samples is higher than of saturated samples. Shear softening was observed both at low (seismic) frequencies and high (ultrasonic) frequencies. Shear softening is stronger at seismic frequencies than at ultrasonic frequencies, where the softening is compensated by hardening due to unrelaxed squirt flow. It contra… Show more

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Cited by 4 publications
(15 citation statements)
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“…Those features, observed on seismic data, are called in literature by "anomalies," because it is challenging to explain it using viscous dissipation models, which predict seismic attenuation to be proportional to the frequency (Q −1~f ) in the low-frequency limit, which gets negligibly small at the zero limit. This model and our previous publications (Rozhko, 2019(Rozhko, , 2020Rozhko & Bauer, 2019) predicted nonzero attenuation at the zero-frequency limit due to a static contact angle hysteresis effect, which was not previously considered in geophysical literature; however, this effect is well known in the physics literature (e.g., Bormashenko, 2013;de Gennes et al, 2013;Drelich, 2019). Figure 8 shows the dependence of Skempton's B we and B nw coefficients (ordinate) on the water saturation S we (abscissa) and the dimensionless wave amplitude Δσ Δσc (color scale).…”
Section: Journal Of Geophysical Research: Solid Earthmentioning
confidence: 67%
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“…Those features, observed on seismic data, are called in literature by "anomalies," because it is challenging to explain it using viscous dissipation models, which predict seismic attenuation to be proportional to the frequency (Q −1~f ) in the low-frequency limit, which gets negligibly small at the zero limit. This model and our previous publications (Rozhko, 2019(Rozhko, , 2020Rozhko & Bauer, 2019) predicted nonzero attenuation at the zero-frequency limit due to a static contact angle hysteresis effect, which was not previously considered in geophysical literature; however, this effect is well known in the physics literature (e.g., Bormashenko, 2013;de Gennes et al, 2013;Drelich, 2019). Figure 8 shows the dependence of Skempton's B we and B nw coefficients (ordinate) on the water saturation S we (abscissa) and the dimensionless wave amplitude Δσ Δσc (color scale).…”
Section: Journal Of Geophysical Research: Solid Earthmentioning
confidence: 67%
“…According to our model, this effect is highly sensitive to the wettability of the rock. Effects of wettability on seismic wave velocities were observed more than 60 years ago, after Wyllie et al (), who were the first (to our knowledge) to report this effect (see also Waite et al, ; Wang et al, ; Rozhko, , ); however, the wettability effects are not mentioned in the literature review by Kazantsev (). If the rock is mixed wet (when contact angles are close to 90°), then equation would predict very high value of the critical wave amplitude ( ∆σ c ), required for the contact line slippage.…”
Section: Discussionmentioning
confidence: 86%
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