The energy flow analysis (EFA) method is developed to predict the energy density of a high damping beam with constant axial force in the high-frequency range. The energy density and intensity of the beam are associated with high structural damping loss factor and axial force and introduced to derive the energy transmission equation. For high damping situation, the energy loss equation is derived by considering the relationship between potential energy and total energy. Then, the energy density governing equation is obtained. Finally, the feasibility of the EFA approach is validated by comparing the EFA results with the modal solutions for various frequencies and structural damping loss factors. The effects of structural damping loss factor ...
The aim of this paper is to identify the local energy dissipation in a lab-scale structure by means ...
Energy methods represent the most widely used techniques in high frequency vibration analysis. At th...
The Energy Finite Element Method (EFEM) is based upon an approximation of the partial differential e...
Energy flow analysis (EFA) is an analytical tool for prediction of the frequency-averaged vibrationa...
The approximate vibrational and acoustical responses of structural-acoustic systems can be modeled b...
In this paper, an energy flow model is developed to analyze transverse vibration including the effec...
An energy finite element formulation is derived for analyzing transversely vibrating beams at high f...
This investigation explores the use of energy variables to predict the response of vibrating structu...
Statistical energy analysis (SEA), a vibration analysis approach to estimate the dynamic response va...
With energy flow analysis (sometimes addressed as power flow analysis) is defined the analysis of po...
At mid- and high-frequency bands, displacement-based approaches such as the finite element method (F...
With the advent of delicate and thin structures like satellite, guided missile, aircraft and ships, ...
Since the noise generated by mechanical structures affects the merchantability, it is important to p...
The aim of this paper is to identify the local energy dissipation in a lab-scale structure by means ...
Our work aims to find a general solution for the vibrational energy flow through a plane network of ...
The aim of this paper is to identify the local energy dissipation in a lab-scale structure by means ...
Energy methods represent the most widely used techniques in high frequency vibration analysis. At th...
The Energy Finite Element Method (EFEM) is based upon an approximation of the partial differential e...
Energy flow analysis (EFA) is an analytical tool for prediction of the frequency-averaged vibrationa...
The approximate vibrational and acoustical responses of structural-acoustic systems can be modeled b...
In this paper, an energy flow model is developed to analyze transverse vibration including the effec...
An energy finite element formulation is derived for analyzing transversely vibrating beams at high f...
This investigation explores the use of energy variables to predict the response of vibrating structu...
Statistical energy analysis (SEA), a vibration analysis approach to estimate the dynamic response va...
With energy flow analysis (sometimes addressed as power flow analysis) is defined the analysis of po...
At mid- and high-frequency bands, displacement-based approaches such as the finite element method (F...
With the advent of delicate and thin structures like satellite, guided missile, aircraft and ships, ...
Since the noise generated by mechanical structures affects the merchantability, it is important to p...
The aim of this paper is to identify the local energy dissipation in a lab-scale structure by means ...
Our work aims to find a general solution for the vibrational energy flow through a plane network of ...
The aim of this paper is to identify the local energy dissipation in a lab-scale structure by means ...
Energy methods represent the most widely used techniques in high frequency vibration analysis. At th...
The Energy Finite Element Method (EFEM) is based upon an approximation of the partial differential e...