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Non-equilibrium strain induces hysteresis and anisotropy in the quasi-static and dynamic elastic behavior of sandstones: Theory and experiments

Jan Kober, M. Scalerandi, Radovan Zeman

2023Applied Physics Letters10 citationsDOI

Abstract

Materials with grain contacts or partially closed cracks exhibit anomalous elastic behavior: hysteresis in quasi-static experiments and slow dynamics in fast dynamic ones. Albeit the behavior in the two cases (which correspond to very different strain ranges) appears different, it should stem from the same physics and, thus, could be modeled by a universal equation of state. We propose a modification of the standard acoustoelastic theory, introducing the concept of conditioning induced non-equilibrium strain, which allows us to predict the evolution of elastic wave velocity in both quasi-static and dynamic ranges, including the velocity anisotropy induced by external uniaxial loading.

Topics & Concepts

AnisotropyHysteresisStatic frictionMaterials scienceCondensed matter physicsQuasistatic processMechanicsClassical mechanicsPhysicsComposite materialThermodynamicsOpticsUltrasonics and Acoustic Wave PropagationRock Mechanics and ModelingSeismic Waves and Analysis
Non-equilibrium strain induces hysteresis and anisotropy in the quasi-static and dynamic elastic behavior of sandstones: Theory and experiments | Litcius