Dynamic Simulation of the Movement of the Rocket Launch Tower on ADAMS Based on the Material of the Tower

Jie Zhou; Ji Sheng Ma; Zhong Xing Sun; Cai Gang Wu

doi:10.4028/www.scientific.net/AMR.625.3

Paper Titles

Dynamic Simulation of the Movement of the Rocket Launch Tower on ADAMS Based on the Material of the Tower
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A Simple Method for Calculating the Bending Modal Frequencies of an Underwater Simply Supported Beam with Hydrodynamic Study
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Study on the Basic Problems of Dynamics by Induction and Generalization
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Nonlinear Vibration of Functionally Graded Material Cylindrical Shell Based on Reddy’s Third-Order Plates and Shells Theory
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Experimental and Finite Element Study on Mechanical Behavior of Bolted Joint with Bolt Clearance in Transmission Tower
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Mechanical Analysis on the Splicing Form of Cross-Section Multiple Angle Steel for Transmission Line
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Dynamic System of a Mechanical Press Driven by SRM for Flexible Process
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Numerical Simulation of Water Removal Process in the Microstructure of Gas Diffusion Layer with Mechanics Properties and Material Properties
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 625Dynamic Simulation of the Movement of the Rocket...

Dynamic Simulation of the Movement of the Rocket Launch Tower on ADAMS Based on the Material of the Tower

Abstract:

The rocket launch tower’s movement involve opening and closing.During these two process,the tower shakes severely. This study using ADAMS to simulate the movement of the tower and finding that the material of the tower’s components showing a characteristic of flexibility, the material’s characteristic of flexibility of the tower is a main reason of the vibration. In oreder to establish the rocket launch tower’s model,using Pro/E and Mech/pro to create the model.Then ,with the use of mechanical system simulation software ADAMS and finite element analysis software, Patran / Nastran to simulate the rocket launch tower’s movement. The results showed that although the rocket launch tower’s material is steel,it’s main components still showing the flexible feature. And its various components’ influence of flexibility for the tower’s vibration are quite different from each other.

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Periodical:

Advanced Materials Research (Volume 625)

Pages:

3-6

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.625.3

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Online since:

December 2012

Authors:

Jie Zhou, Ji Sheng Ma, Zhong Xing Sun, Cai Gang Wu

Keywords:

Adam, Dynamic Simulation, Flexible Body

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