Continuum model of wave propagation in fragmented media: linear damping approximation
نویسندگان
چکیده
Energy dissipation during wave propagation in fragmented geomaterials can be caused by independent movement of fragments leading to energy loss on their impact. By considering a pair of impacting fragments at times much greater than the period of their oscillations we show that at large time scale, the dynamics of the pair can be described by a linear viscous model with damping coefficient expressed through the restitution coefficient representing energy loss on impact. Wave 10 propagation in fragmented geomaterials is also considered at the large time scale assuming that the wavelengths are much larger than the fragment sizes such that the attenuation associated with wave scattering on the fragment interfaces can be neglected. These assumptions lead to Kelvin-Voigt model of wave propagation, which allows the determination of dispersion relationship. As the attenuation and dispersion are not related to the rate dependence of rock deformation, but rather to the interaction of fragments the increasing damping and dispersion at low frequencies can be seen as an indication of fragmented 15 nature of the geomaterial and the capacity of the fragments for independent movement.
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Interactive comment on “Continuum model of wave propagation in fragmented media: linear damping approximation” by Maxim Khudyakov
The paper addresses the continuum model of wave propagation in fragmented media. The obtained results look interesting, new and of some significance in mechanical engineering. The paper in its major part fits current trends and standards for international scientific publications. Its presentation is clear and concise, includes reasonable number of figures of acceptable quality. The title fairly...
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Energy dissipation during wave propagation in fragmented geomaterials can be caused by independent movement of fragments leading to energy loss on their impact. By considering a pair of impacting fragments at times much greater than the period of their oscillations we show that at large time scale, the dynamics of the pair can be described by a linear viscous model with damping coefficient expr...
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