What question did this study set out to answer?

This research aims to develop a boundary integral equation formulation for analyzing transient elastic wave propagation in two dimensions.

May 8, 2026Open Access

A revisited time domain formulation of boundary integral equations for two-dimensional elastodynamics

Key Points

This research aims to develop a boundary integral equation formulation for analyzing transient elastic wave propagation in two dimensions.
Developed a time-dependent formulation for boundary integral equations based on three-dimensional integral identity.
Assumed linear time variation in displacements and tractions for each time step.
Utilized an implicit time marching scheme for analytical solutions.
Derived an analytical solution for a cylindrical cavity subjected to transient pressure at the boundary surface.

Abstract

A boundary integral equation (BIE) formulation for 2-D transient elastic wave propagation problems is presented. On the basis of the three-dimensional integral identity, the time-dependent kernels for the two-dimensional boundary integral equation are obtained. A linear time variation of displacements and tractions is assumed over each time step and an implicit time marching scheme is deduced. The formulation is used to obtain an analytical solution for the cylindrical cavity under transient pressure at the boundary surface.

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A revisited time domain formulation of boundary integral equations for two-dimensional elastodynamics

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Abstract

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