Time-dependent frictional properties of granular materials used in analogue modelling: implications for mimicking fault healing during reactivation and inversion

Rudolf, Michael; Rosenau, Matthias; Oncken, Onno

doi:10.5194/se-14-311-2023

Cited by 3 publications

(3 citation statements)

References 65 publications

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“…The mixed quartz sand respects Mohr‐Coulomb behavior with cohesion C in the order of a few tens of Pa. Static and dynamic friction coefficients are μ stat = 0.69 and μ dyn = 0.55, respectively (Rosenau et al., 2018), similar to other sands used in analog modeling (Klinkmüller et al., 2016). Healing rates are low at <1% per ten‐fold increase in hold time (Rudolf et al., 2023) as is the rate dependency of friction which is <1% per ten‐fold change in shear rate (Rosenau et al., 2018). This is consistent with time‐independency of brittle deformation in nature at the long time‐scales of interest here.…”

Section: Experimental Designmentioning

confidence: 99%

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Fault Networks in Triaxial Tectonic Settings: Analog Modeling of Distributed Continental Extension With Lateral Shortening

Liu,

Rosenau,

Brune

et al. 2024

Tectonics

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Triaxial deformation is a general feature of continental tectonics, but its controls and the systematics of associated fault networks remain poorly understood. We present triaxial analog experiments mimicking crustal thinning resulting from distributed longitudinal extension and lateral shortening. Contemporary longitudinal extension and lateral shortening are related by the principal horizontal strain ratio (PHSR). We investigate the effect of crustal geometry, rheology and strain rate on deformation localization, faulting regime and pattern, and PHSR in brittle and brittle‐viscous crustal‐scale models. We find that in brittle models the fault networks reflect the basal boundary condition and fault‐density scales inversely with brittle layer thickness. In brittle‐viscous models, as strain rate (ė) decreases, (a) Three fault patterns emerge: conjugate sets of strike‐slip faults (ė > 3 × 10−4 s−1, PHSR > 0.31), sets of parallel oblique normal faults (ė = 0.3–3 × 10−4 s−1, PHSR = 0.15–0.25), horst‐and‐graben system (ė < 0.3 × 10−4 s−1, PHSR < 0.1). (b) The strain localization increases systematically and gradually. We interpret the strain rate dependent of faulting regimes to be controlled by vertical coupling between the model upper mantle and model upper crust resulting in spontaneous permutation of principal stress axes. Rate‐dependency of strain localization can be related to mechanical coupling between the upper and lower crust. We identify the following parameters controlling triaxial tectonic deformation: upper crustal thickness and friction coefficient, lower crustal thickness and viscosity, as well as strain rate. We test our models and predictions against natural prototypes (Tibet, Anatolia, Apennines, and Basin and Range Province) thus providing new perspectives on triaxial deformation.

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Section: Experimental Designmentioning

confidence: 99%

“…This mixture provides an appropriate visual contrast pattern that allows for the digital image correlation. The sand is of fluvial origin and as such well sorted, well rounded, rather spherical and has a rather low surface roughness (Rudolf et al., 2023). The grain size is 100–400 μm, with an average of 240 μm.…”

Section: Experimental Designmentioning

confidence: 99%

Fault Networks in Triaxial Tectonic Settings: Analog Modeling of Distributed Continental Extension With Lateral Shortening

Liu,

Rosenau,

Brune

et al. 2024

Tectonics

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“…Four parameters, including the shear velocity, shear stress, normal stress, and lid's vertical displacement, are measured (more information can be found in Schulz (1994), Ritter et al (2016), andRudolf et al (2023)). The velocity stepping test (e.g., Pohlenz et al, 2020) carries out under constant normal load simulating coseismic and interseismic shear-stress drops and increases to estimate the friction parameter (a-b).…”

Section: Frictional Propertiesmentioning

confidence: 99%

Along-strike seismotectonic segmentation reflecting megathrust seismogenic behavior

Kosari

Rosenau

Metzger

et al. 2023

Geology

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Understanding the along-strike seismogenic behavior of megathrusts is crucial to anticipating seismic hazards in subduction zones. However, if and how spatiotemporal frictional heterogeneity (high and low kinematic coupling) at depth feeds back into the upper-plate deformation pattern and how the upper-plate elastic signals and permanent records may correlate have yet to be fully understood. Hence, we mimic subduction megathrust seismic cycles using an analog seismotectonic model of an elastoplastic wedge overlying a frictionally heterogeneous megathrust. Coseismically, the zone above the down-dip limit of the aseismic and seismogenic patches undergoes extension and contraction, respectively, while the strain state shows a switch in polarity from coseismic to interseismic. The down-dip limit of the creeping zone produces permanent along-strike extension or contraction, depending on the frictional barrier strength. Our experiments show that the frictional locking heterogeneity generates more segmented along-strike strain patterns elastically (short term) than permanently (long term). Moreover, our results suggest that along-strike upper-plate strain patterns could serve as a proxy for interpreting persistent lateral variations of seismogenic behavior in subduction megathrusts.

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Aerodynamic resuspension of irregular flat micro-particles

Villagrán Olivares,

Benito,

Silin

et al. 2024

Journal of Aerosol Science

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Time-dependent frictional properties of granular materials used in analogue modelling: implications for mimicking fault healing during reactivation and inversion

Cited by 3 publications

References 65 publications

Fault Networks in Triaxial Tectonic Settings: Analog Modeling of Distributed Continental Extension With Lateral Shortening

Fault Networks in Triaxial Tectonic Settings: Analog Modeling of Distributed Continental Extension With Lateral Shortening

Along-strike seismotectonic segmentation reflecting megathrust seismogenic behavior

Aerodynamic resuspension of irregular flat micro-particles

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