Simulation Study of Composite Materials Directional Pipe Based on Visual Prototype

Pei Zhen Li; Yu Liang Yin

doi:10.4028/www.scientific.net/MSF.1032.9

Paper Titles

Synthesis of Carbon Nitride Intercalation Compound Composite and Study of Visible Light-Induced Photocatalytic Performance
p.3

Simulation Study of Composite Materials Directional Pipe Based on Visual Prototype
p.9

Numerical Mechanical Analysis of Filled Rubber under Different Deformation States Based on a New Hyperelastic Constitutive Model
p.15

Effect of Repetitive Recycling on the Optical Properties of Polypropylene Based on Material Value Conservation Paradigm
p.23

Fracture Behavior of Modified Polymer Materials by Digital Image Correlation Method
p.29

Study on Preparation and Properties of Coaxial Electrospun PLGA/Gelatin Fibers
p.35

Study on Juice Yield by Compound Enzymolysis in Cloudy Apple Juice
p.45

Large Size CH₃NH₃PbI₃ Perovskite Microcrystalline with a Capsule-Free Cavity Box Structure Grown by Solvent Thermal Reaction
p.51

HomeMaterials Science ForumMaterials Science Forum Vol. 1032Simulation Study of Composite Materials...

Simulation Study of Composite Materials Directional Pipe Based on Visual Prototype

Abstract:

When the flexible deformation of composite materials directional pipe which influences the movement of rocket projectile is considered, the visual prototype is a good approach that calculates the course of rocket projectile launch. In this thesis, the mechanical model of bearing load of composite materials directional pipe is established, and the theory and arithmetic of calculation are expatiated. After the simulation model is established and simulation calculation is done, not only the needed data and results are gained, but also the movement principles of rocket projectile in directional pipe and the dynamic mechanical capabilities of FRP directional pipe are held.