The frequency spectrum for structural vibration analysis can be divided into three regions: low, mid, and high frequency. In the mid-frequency range some members of a system have low modal density (short members) and other members present high modal density (long members). The conventional Finite Element Analysis (FEA) is a practical simulation tool for low frequency vibrations. The Energy Finite Element Analysis (EFEA) is a viable method for simulating high frequency vibrations. Neither FEA nor EFEA works well in the mid-frequency range due to high computational cost or inaccurate predictions, respectively. In this thesis an innovative and fundamentally new hybrid finite element method is developed for computing mid-frequency vibrations of...
The need for information on structural vibrations spanning the entire frequency range has led to the...
Most of today's structures such as a ship machinery foundation or a car body are built up from beams...
Modeling techniques and solution tools to analyze the dynamic and vibro-acoustic behavior of complex...
The frequency spectrum for structural vibration analysis can be divided into three regions: low, mid...
New developments in the hybrid Finite Element Analysis (hybrid FEA) are presented in this Thesis. Th...
An energy finite element formulation is derived for analyzing transversely vibrating beams at high f...
Energy methods represent the most widely used techniques in high frequency vibration analysis. At th...
The medium frequency vibration of a built-up plate structure is studied by an energy flow analysis w...
The Energy Finite Element Method (EFEM) is based on the approximate solution of partial differential...
When used correctly, Statistical Energy Analysis (SEA) can provide good predictions of high frequenc...
Based on the concept of the hybrid finite element (FE) analysis and statistical energy analysis (SEA...
The finite element method (FEM) is widely accepted for the steady-state dynamic response analysis of...
The Energy Finite Element Method (EFEM) is based upon an approximation of the partial differential e...
A novel hybrid method, which simultaneously possesses the efficiency of Fourier spectral method (FSM...
The approximate vibrational and acoustical responses of structural-acoustic systems can be modeled b...
The need for information on structural vibrations spanning the entire frequency range has led to the...
Most of today's structures such as a ship machinery foundation or a car body are built up from beams...
Modeling techniques and solution tools to analyze the dynamic and vibro-acoustic behavior of complex...
The frequency spectrum for structural vibration analysis can be divided into three regions: low, mid...
New developments in the hybrid Finite Element Analysis (hybrid FEA) are presented in this Thesis. Th...
An energy finite element formulation is derived for analyzing transversely vibrating beams at high f...
Energy methods represent the most widely used techniques in high frequency vibration analysis. At th...
The medium frequency vibration of a built-up plate structure is studied by an energy flow analysis w...
The Energy Finite Element Method (EFEM) is based on the approximate solution of partial differential...
When used correctly, Statistical Energy Analysis (SEA) can provide good predictions of high frequenc...
Based on the concept of the hybrid finite element (FE) analysis and statistical energy analysis (SEA...
The finite element method (FEM) is widely accepted for the steady-state dynamic response analysis of...
The Energy Finite Element Method (EFEM) is based upon an approximation of the partial differential e...
A novel hybrid method, which simultaneously possesses the efficiency of Fourier spectral method (FSM...
The approximate vibrational and acoustical responses of structural-acoustic systems can be modeled b...
The need for information on structural vibrations spanning the entire frequency range has led to the...
Most of today's structures such as a ship machinery foundation or a car body are built up from beams...
Modeling techniques and solution tools to analyze the dynamic and vibro-acoustic behavior of complex...