Discussions on “composite element method for vibration analysis of structure”

This paper is the second in a series of two devoted to a detailed study of Composite Element Method for vibration analysis of structures. The first paper focused on the principle and C 0 element of the Composite Element Method. The present one concentrates on developing the beam element of the Compo

A series of two papers is devoted to develop a new kind of numerical method for vibration analysis of structure, called Composite Element Method (CEM), by combining the conventional finite element method and classical analytical theory, aiming at utilizing both the versatility of the traditional FEM

Four types of integral ®nite elements have been developed and used to estimate the dynamical characteristics of elastic±viscoelastic composite structures, namely sandwich beam, plate and shell structures with viscoelastic materials as core layers. The results of the integral ®nite element prediction

This paper presents a new finite element formulation for the free vibration analysis of composite beams based on the third-order beam theory. This work also studies the influence of the mass components resulting from higher-order displacements on the frequencies of flexural vibration. By using Hamil