A novel hybrid method, which simultaneously possesses the efficiency of Fourier spectral method (FSM) and the applicability of the finite element method (FEM), is presented for the vibration analysis of structures with elastic boundary conditions. The FSM, as one type of analytical approaches with excellent convergence and accuracy, is mainly limited to problems with relatively regular geometry. The purpose of the current study is to extend the FSM to problems with irregular geometry via the FEM and attempt to take full advantage of the FSM and the conventional FEM for structural vibration problems. The computational domain of general shape is divided into several subdomains firstly, some of which are represented by the FSM while the rest ...
The finite element method (FEM) is widely accepted for the steady-state dynamic response analysis of...
The Energy Finite Element Method (EFEM) is based on the approximate solution of partial differential...
The analysis and design of lightweight plate structures require efficient computational tools, becau...
The frequency spectrum for structural vibration analysis can be divided into three regions: low, mid...
A frequency-domain spectral element method (SEM) is proposed for the vibration analysis of thin plat...
The analysis and design of lightweight plate structures require efficient computational tools, becau...
This paper introduces a Galerkin spectral element method (GSEM) for hybrid beam. The considered beam...
Based on the concept of the hybrid finite element (FE) analysis and statistical energy analysis (SEA...
The natural frequencies of thin, flat-walled structures with different boundary conditions are analy...
We propose a new spectral element model for finite rectangular plate elements with arbitrary boundar...
The present paper discusses impedance and mobility approach integrated with finite element method (F...
The medium frequency vibration of a built-up plate structure is studied by an energy flow analysis w...
The spectral finite element method and equally the dynamic stiffness method use exponential function...
In this paper, a hybrid Mode/Fourier-transform approach is described for estimating the vibration re...
In this study, a spectral element method (SEM) is employed to predict the free vibration of a Euler-...
The finite element method (FEM) is widely accepted for the steady-state dynamic response analysis of...
The Energy Finite Element Method (EFEM) is based on the approximate solution of partial differential...
The analysis and design of lightweight plate structures require efficient computational tools, becau...
The frequency spectrum for structural vibration analysis can be divided into three regions: low, mid...
A frequency-domain spectral element method (SEM) is proposed for the vibration analysis of thin plat...
The analysis and design of lightweight plate structures require efficient computational tools, becau...
This paper introduces a Galerkin spectral element method (GSEM) for hybrid beam. The considered beam...
Based on the concept of the hybrid finite element (FE) analysis and statistical energy analysis (SEA...
The natural frequencies of thin, flat-walled structures with different boundary conditions are analy...
We propose a new spectral element model for finite rectangular plate elements with arbitrary boundar...
The present paper discusses impedance and mobility approach integrated with finite element method (F...
The medium frequency vibration of a built-up plate structure is studied by an energy flow analysis w...
The spectral finite element method and equally the dynamic stiffness method use exponential function...
In this paper, a hybrid Mode/Fourier-transform approach is described for estimating the vibration re...
In this study, a spectral element method (SEM) is employed to predict the free vibration of a Euler-...
The finite element method (FEM) is widely accepted for the steady-state dynamic response analysis of...
The Energy Finite Element Method (EFEM) is based on the approximate solution of partial differential...
The analysis and design of lightweight plate structures require efficient computational tools, becau...