Analysis of Vibration by Component Mode Synthesis Method : Part 5, Force Vibration II
スポンサーリンク
概要
- 論文の詳細を見る
A method is presented to analyze the vibration of a complex mechanical structure by using the natural modes of its components. The structure is divided into some components. The natural modes of each component in the condition of its interface region fixed are calculated by the finite element method. The displacement of the total structure is represented with those natural modes. The equation of motion of the total structure is transformed into the one on a generalized coordinate. The response of the forced vibration is analyzed with these natural modes on the generalized coordinate by using the technique of the modal analysis. In the present report, the way of analysis of the forced vibration by the authors' proposed method is explained. And as an example of application of this method, the vibration of a continuous centrifuge is analyzed by the method. The calculated results of the machine are compared with the experimental ones.
- 一般社団法人日本機械学会の論文
著者
-
OOKUMA Masaaki
Faculty of Engineering, Tokyo Institute of Technology
-
Nagamatsu Akio
Faculty Of Engineering Tokyo Institute Of Technology
-
Nagamatsu Akio
Faculty O F Engineering Tokyo Institute Of Technology
-
Yanabe Shigeo
Faculty Of Engineering Nagaoka University Of Technology
-
Yanabe Shigeo
Faculty Of Engineering Technological University Of Nagaoka
-
Ookuma Masaaki
Faculty Of Engineering Tokyo Institute Of Technology
関連論文
- Experimental Identification of Mechanical Structure with Characteristic Matrices : Part 1. Proposition and Basic Approach
- Research on Simulation of the Robot : 2nd Report, Numerical Analysis of Force
- Research on Simulation of the Robot : 1st Report, Numerical Analysis of Displacement, Velocity and Acceleration
- Analysis of Vibration by Substructure Synthesis Method : Part 3, Application to Diesel Generator Package
- Analysis of Forced Vibration by Reduced Impedance Method : Part. 4 Proposition and application of multiple reduced impedance method
- Vibration Analysis on Bladed Disk Assemblies of Axial-flow Turbines
- Model Parameter Estimation with Multi-reference Curve Fitting : Vibration, Control Engineering, Engineering for Industry
- Comparison of Component Mode Synthesis Method with MSC-NASTRAN
- Robust Speed Control of Ultrasonic Motor Based on H_∞ Control with Repetitive Compensator
- Research on Modal Analysis : 4th Report, Multi Reference Curve Fitting-(Part 1)
- Analysis of Vibration by Substructure Synthesis Method : Part.1 Basic Approach
- Basic Research on Vibration and Noise of Internal Combustion Engine : 2nd Report, Noise Analysis of Cylinder Block
- Research on Modal Analysis : 1st report, General Purpose Program of Curve Fitting and Basic Study
- Basic Research on the Vibration and Noise of an Internal Combustion Engine : 3rd Report, Acoustic Analysis of the Cylinder-crank System
- Vibration Analysis of Movable Part of Internal Combustion Engine : Part 1. Crank Shaft
- Basic Research on Vibration and Noise of Internal Combustion Engine : 1st Report, Vibration Analysis of the Piston-Crank System I
- Vibration Analysis by Substructure Synthesis Method : 5th Report, Method with identified Characteristic Matrices
- Analysis of Forced Vibration with Reduced Impedance Method : Part l, Introduction of Analytical Procedure
- Vibration Analysis by Component Mode Synthesis Method (Comparison of Three Methods (1)
- Analysis of Forced Vibration by Reduced Impedance Method : Part. 3 Damped Vibration
- Estimation of Variance of the Frequency Response Function and its Application to the Curve Fit
- Research on Simulation of the Robot : 3rd Report, Vibration Analysis, Part 1
- Analysis of Forced Vibration by Reduced Impedance Method : Part 2. Introduction of New Curve Fitting Technique
- Estimation of Variance of the Frequency Response Function in Experimental Modal Analysis
- Recent Advances of Modal Analysis in Japan
- Vibration Analysis by Multiple Component Mode Synthesis Method
- Analysis of Vibration by Component Mode Synthesis Method : Part 4, Natural Frequency and Natural Mode (II)
- Vibration Analysis by Substructure Synthesis Method : Part 4, Calculation of Residual Compliance Matrix
- Analysis of Vibration by Component Mode Synthesis Method : Part 5, Force Vibration II
- Multi-plane Balancing of Flexible Rotor Consisting of Two Disks
- Precise Speed Tracking Control of Ultrasonic Motors via Sampled-Data H_∞ Control