Design of the Interval between Reaction Mass and Foundation in Vibration Test System

Lu Tao Yan; Zhi Peng Yang; Hong Li

doi:10.4028/www.scientific.net/AMM.321-324.17

Paper Titles

Preface and Conference Organization

Analysis of Crane Ship Lifting Load Swaying Character with Multi-Factors Coupling
p.3

Analysis of Dynamic Characteristics of Gear Transmission System Based on Wind Turbine Gearbox
p.9

Bifurcation and Strange Behavior for a Nonlinear Viscoelastic Rod System
p.13

Design of the Interval between Reaction Mass and Foundation in Vibration Test System
p.17

Dynamometer Development of Motorcycle Engine Applied Kalman Filter
p.23

Effect of Track Measuring Beam on the Dynamic Properties of Rail Inspection Car
p.27

Free Vibration Measurements of Single-Lap Cantilevered SPR Beams
p.33

Influence upon Kinematics Performance of a Family of 3-PRS Parallel Mechanisms Affected by Kinematic Chain Layout
p.37

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 321-324Design of the Interval between Reaction Mass and...

Design of the Interval between Reaction Mass and Foundation in Vibration Test System

Abstract:

The dynamic model of the reaction mass system in the large-scale vibration test system is set up, and the crossover frequencies are calculated in order to determine the operation capability and the interval between reaction mass and foundation. On the basis of the finite element method (FEM) analysis and theory of analysis mechanics, the dynamic response of the reaction mass is studied. The results show that the maximum amplitude of the dynamical system is obtained at the natural frequency of the system. The results of theoretical and FEM calculations indicate that the maximum displacements responses are all much lower than the design of the interval, which means the design is satisfied and reasonable. This method can calculate the operation capability of the reaction mass effectively and can be used for vibration test system design and optimization.