瞬态波传播的饱和不可压缩孔隙弹性模型的解析解

Pub Date : 2021-06-01 DOI:10.32523/2306-6172-2021-9-2-12-38

R. Silva, V. Priimenko

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引用次数: 0

摘要

基于多孔介质和饱和孔弹性介质中波的传播理论，提出了一种瞬态波传播模型。在线性情况下，该理论与de Boer, R.， Ehlers, W. & Liu, Z.在1993年提出的理论等价。建立了一维多孔饱和柱问题的模型，该模型在适当的边界条件和初始条件建立后，可以借助随时间的拉普拉斯变换解析求解。通过数值实验说明了构件位移场的特性。该理论的结果是对固体成分的运动具有惯性效应，这是通常所期望的。然而，与Biot的理论相反，本理论没有引入相对加速度作为固体和流体组分之间的相互作用力来解释表观惯性效应。

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AN ANALYTICAL SOLUTION OF THE SATURATED AND INCOMPRESSIBLE POROELASTIC MODEL FOR TRANSIENT WAVE PROPAGATION

A transient wave propagation model is provided as a consequence of a new theory of porous media and wave propagation in saturated poroelastic media. This theory, in the linear case, becomes to be equivalent to the theory proposed by de Boer, R., Ehlers, W. & Liu, Z. in 1993. It leads to a model for the 1-D porous saturated column problem, which after the appropriate establishment of boundary and initial conditions, can be solved analytically with the aid of the Laplace transform concerning time. Numerical experiments are performed to illustrate the behavior of constituents displacement fields. The theory results in having an inertial effect on the motion of solid constituents as commonly expected. However, in contrast to Biot’s theory, is not introduced by the present theory the relative acceleration as an interactive force between solid and fluid constituents to account for the apparent inertial effect.

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