Dynamic Analysis of Bionic Vibration Isolation Platform Based on Viscoelastic Materials

Hong Qing Lv; Wei Xiao Tang; Qing Hua Song

doi:10.4028/www.scientific.net/AMR.852.467

Paper Titles

Finite Element Analysis for the Welding Column of CNC Boring Machine
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Comparison of the Bearing Capacity of Dry and Wet Cutting Surfaces
p.452

Prediction of Cutting Force in Trochoidal Milling Based on Radial Depth of Cut
p.457

Laser Transmission Welding of Thermoplastic: Effect of Process Parameters on Weld Strength
p.463

Dynamic Analysis of Bionic Vibration Isolation Platform Based on Viscoelastic Materials
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The Factors Sensitivity Analysis of Drift Ice Impact Force on the Pier
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Experimental Study on the Impact of Cutting Speed on Surface Integrity of Ti-10V-2Fe-3Al
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Work Hardening of the Isotactic Polypropylene during Rolling
p.481

Experimental Study on Impact Damper with Activated Carbon Fine Particles
p.485

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 852Dynamic Analysis of Bionic Vibration Isolation...

Dynamic Analysis of Bionic Vibration Isolation Platform Based on Viscoelastic Materials

Abstract:

The ecological structures of some organisms that could resist environmental vibration naturally (such as dragonfly, woodpecker and legs of cursorial animals) uncovered by biologists inspire people a new approach to overcome the above problem. In this paper, a new shock isolation system consisting of a pedestal, a rubber layer, an air spring and a shearing viscoelastic damper is designed, fabricated, and characterized to avoid the performance deterioration and physical damage of mechanical manufacturing devices from external mechanical excitations. The nonlinear dynamics model of the platform is developed and the dynamic characteristics are analyzed using numerical analysis. The displacement and velocity response are obtained. The results demonstrate that the stiffness and damping characteristic of the platform change with excitation frequency. The vibration isolation effectiveness will be greatly enhanced.