Abstract
The problem of the propagation of a spherical wave in a soil is solved in an analytically inverse way for soils with more complex equations of state. The results are obtained for the propagation of a spherical shock wave in soil with a more complex equation of state for the shape change in the medium. The study shows that taking into account the nonlinear elastic shock waves of the annular stress leads to an increase in comparison with the elastic medium. Note that in the case of using a complicated equation of state of the soil, a spherical shock wave propagates in the soil, behind the front of which, in the disturbance region, the medium is unloaded.
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Khudainazarov, S., Donayev, B. (2022). Propagation of a Spherical Wave in Elastoplastic Medium with Complex Equations of State. In: Akimov, P., Vatin, N. (eds) Proceedings of FORM 2021. Lecture Notes in Civil Engineering, vol 170. Springer, Cham. https://doi.org/10.1007/978-3-030-79983-0_38
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