Scheme Comparison on Unsymmetrical Loading Tunnel Location near Tunnel Portal
p.419
p.419
Parametric Optimization for a Tapered Deployable Mast in an Integrated Design Environment
p.426
p.426
Coupled Dynamic Analysis of a Spar Type Floating Wind Turbine
p.433
p.433
A Parametric CNC Programming Method for Rapid Battlefield ManufacturingF
p.440
p.440
Rigid-Flexible Coupling Model and Dynamic Analysis of Rocket Sled
p.447
p.447
Knowledge Based Collaborative Modeling and Simulation Platform to Design Complex Product
p.455
p.455
Topology Optimization on the Material Distribution of Track Segment for Heavy Machinery
p.460
p.460
Protective Performance of the Operator's Helmet for Wheel Loader in the Rollover Accident
p.471
p.471
Numerical Simulation on Aerodynamic Characteristics of Heavy-Duty Commercial Vehicle
p.477
p.477
Rigid-Flexible Coupling Model and Dynamic Analysis of Rocket Sled
Abstract:
The Dynamics Analysis & Simulation of the Rocket Sled were done based on Multibody System Dynamics and Finite Element Analysis Theory. The most difficult work in the analysis was establishing the boundary conditions of the rocket sled. The paper made this kind of attempt. Then the relevant post processing figures and data were obtained, thereby providing the designer and manufacturer with detailed and reliable data. The conclusion is the simulation method is more effective than those before and the boundary conditions is correct and acceptable.
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Info:
Periodical:
Advanced Materials Research (Volume 346)
Pages:
447-454
Citation:
Online since:
September 2011
Authors:
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