Identification of dynamic properties of plate-like structures by using a continuum model

## Abstract An easy implementation of molecular mechanics and molecular dynamics simulation using a continuum solvent model is presented that is particularly suitable for biomolecular simulations. The computation of solvation forces is made using the linear Poisson–Boltzmann equation (polar contrib

1. INTRODUCTION Plates supported by elastic foundations present very common technical problems in structural and geotechnical engineering. The majority of research work in this area has been done using the classical Winkler model [1] where a coef®cient k called the subgrade reaction of the foundatio

The connections between structural components, i.e., joints, are extremely difficult to model accurately by using a pure analytical approach. Alternatively, joint properties can be extracted from experimental data. A method for identifying (extracting) joint properties from the measured frequency re

The sound transmission and re#ection by an in"nite compliant plate-like structure immersed in #uids are analyzed using an exact method. A matrix formulation for the submerged plate with a stack of arbitrary number of anisotropic or isotropic layers, and subject to a plane sound wave excitation, is d