Optimal Design for Vibration Suppression Using Viscoelastic Type Dynamic Vibration Absorber
スポンサーリンク
概要
- 論文の詳細を見る
Viscoelastic suspension systems are widely used as one of the effective techniques for suppressing the vibration. In this paper, the damping effect (vibration transmissibilities) of primary system with viscoelastic type dynamic vibration absorber consisting of a mass and a viscoelastic material in presented theoretically and experimentally. The fixed point theory is employed to derive the optimum tuning condition and the expression equation of damping in case of the primary system with no damping. In case that the primary system has some damping, the opitmum values are derived by introducing a correction factor. Mass and complex spring element of two degree-of-freedom vibration system are also considered as an equivalent model of spring and dashpot. The vibration transmissibilites are measured experimentally. The good agreement between experimental and theoretical results implies that the optimum vibration damping condition for two degree-of-freedom vibration system with viscoelastic material was formulated, and suggested that the formulation using complex spring is very effective for designing the dynamic vibration absorber with viscoelastic materials.
- 東海大学の論文
著者
-
Ozaki Koichi
Department Of Biological Science Faculty Of Life And Environmental Science Shimane University
-
Masuda Hiroaki
Course Of Mechanical Engineering Graduate School Of Engineering
-
ISHIZAKA Akio
Department of Precision Mechanics, School of Engineering
-
NARABAYASHI Tatsuo
Associate Department of Precision Mechanics, School of Engineering
-
Ishizaka Akio
Department Of Precision Mechanics
-
NARABAYASHI Tatsuo
Department of Precision Mechanics
関連論文
- Rhodopsin Transport and Rab Expression in the Carotenoid-Deprived Drosophila melanogaster(Physiology)
- MOLECULAR AND FUNCTIONAL CHARACTERIZATION OF A UNIQUE DROSOPHILA RAB PROTEIN, RABRP1(Physiology)(Proceedings of the Seventy-Third Annual Meeting of the Zoological Society of Japan)
- FUNCTIONAL ANALYSIS OF THE PROTEINS LOCALIZED ON PIGMENT GRANULES IN THE DROSOPHILA RETINAL PIGMENT CELLS(Physiology,Abstracts of papers presented at the 76^ Annual Meeting of the Zoological Society of Japan)
- ANALYSIS OF RAB5 FUNCTION ON SYNAPTIC VESICLES AND SECRETORY GRANULES(Physiology,Abstracts of papers presented at the 75^ Annual Meeting of the Zoological Society of Japan)
- FUNCTION OF RAB5 ON SYNAPTIC VESICLES(Physiology,Abstracts of papers presented at the 74^ Annual Meeting of the Zoological Society of Japan)
- PURIFICATION AND PROTEOME ANALYSIS OF PIGMENT GRANULES IN THE DROSOPHILA RETINA(Physiology,Abstracts of papers presented at the 74^ Annual Meeting of the Zoological Society of Japan)
- Liquid-Liquid Direct Contact Heat Exchange Using a Perfluorocarbon Liquid for Waste Heat Recovery : Heat Transfer Characteristics Obtained with Perfluorocarbon Droplets Descending in a Hot Water Medium
- Pc7 PROTEIN-MEDIATED PHOTOISOMERIZATION OF RETINAL ANALOGS
- Communication system for cooperative mobile robots : implementation of communication among soccer robots
- Distributed and cooperative object pushing by multiple mobile robots based on communication
- Application of Localization Based on the DC Magnetic Field that Occurs in the Environment on Wheel-Type Mobile Agricultural Robots
- Optimal Design for Vibration Suppression Using Viscoelastic Type Dynamic Vibration Absorber
- Effect of Interatomic Potential on Melting Point and Thermal Expansion of a Transition Metal
- Optimal Vibration Control Using Dynamic Absorber with Rubber Vibration Isolator
- Characteristics of Vibration Transmissibility of Damper with Visco-Elasticity Material
- Reducting Effect on the Transient Vibration of Bending Type Structure with the Gyro on Its Top
- Vibration Analysis of Reversed Rubber Pendulum
- Evaluation of Vibration-Damping of Damper with Visco-Elasticity Material
- Navigation Using an Environmental Magnetic Field for Outdoor Autonomous Mobile Robots
- Prediction Method of Fracture Strain for Non-Standardized Specimens Based on Local Absorbed Strain Energy Distribution