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The role of poroelasticity and dilatancy in governing the transition from aseismic to seismic slip during fluid injection
Abstract: <p>Most faults at seismogenic depths can be described as fractures or discontinuities in a fluid-saturated porous medium and thus, the theory of poroelasticity offers a practical mechanical description of the natural fault environment. However, poroelasticity is rarely considered in simulations of fault slip. Poroelasticity incorporates the two-way coupling of solid and fluid phases where pore-pressure change, &#160;e.g., due to slip, strains the rock matrix and volumetric strain causes c…
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