A time-marching scheme based on implicit Green’s functions for elastodynamic analysis with the domain boundary element method

The transient Green's function of the 2-D Lamb's problem for the general case where point source and receiver are situated beneath the traction-free surface is derived. The derivations are based on Laplacetransform methods, utilizing the Cagniard-de Hoop inversion. The Green's function is purely alg

## Abstract The present paper describes an unconditionally stable algorithm to integrate the equations of motion in time. The standard FEM displacement model is employed to perform space discretization, and the time‐marching process is carried out through an algorithm based on the Green's function

This work aims at presenting a novel hybrid method applied to the numerical solution of elastodynamic problems. The formulation is based on the so-called Explicit Green's Approach (ExGA), recently developed by Mansur et al. [Mansur, W.J., Loureiro, F.S., Soares Jr., D., Dors, C., 2007. Explicit time

This paper describes an original time-domain formulation to analyse saturated porous media. Standard finite element procedures are employed to numerically discretize the spatial domain of the model and a time-marching scheme based on the mechanical Green's function of the problem is considered. The