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Study of the Influence of Nonlinear Dynamic Loads on Elastic Modulus of Carbonate Reservoir Rocks

Evgenii Riabokon, Mikhail Turbakov, Nikita A. Popov, Evgenii Kozhevnikov, Vladimir Poplygin, М. А. Гузев

2021Energies13 citationsDOIOpen Access PDF

Abstract

The paper presents the results of the experimental investigation of carbonate reservoir rocks subjected to quasistatic and nonlinear dynamic loads. During the quasistatic loading the zones of linear elasticity were determined. Dynamic loading of samples was performed at several frequencies and load amplitudes using a testing system. There were two zones found in which the elastic modulus changes nonlinearly in terms of dynamic load frequency. While the frequency of the dynamic load increases from 0 to 10 Hz the dynamic elastic modulus rises according to logarithmic law; while the frequency increases from 10 to 60 Hz elastic modulus rises according to a power law for each load amplitude. The amplitude of the longitudinal strain and phase shift decreases with increasing frequency of the dynamic load. Under the higher strain rates the rock gets stiffer in comparison with rock subjected to smaller strain rate dynamic loading. Saturation of rock samples with distilled water flattening the dependencies of dynamic Young’s modulus on frequency.

Topics & Concepts

Quasistatic processDynamic load testingAmplitudeMaterials scienceElastic modulusFlatteningPower lawDynamic modulusModulusGeotechnical engineeringSaturation (graph theory)Dynamic loadingYoung's modulusNonlinear systemGeologyMechanicsDynamic mechanical analysisComposite materialOpticsPhysicsThermodynamicsMathematicsPolymerQuantum mechanicsCombinatoricsStatisticsGeotechnical and Geomechanical EngineeringDrilling and Well EngineeringRock Mechanics and Modeling
Study of the Influence of Nonlinear Dynamic Loads on Elastic Modulus of Carbonate Reservoir Rocks | Litcius