Difference between revisions of "R3DC Report 2-08"

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where
 
where
  
:<math>Y = 140 N/m^3 \equiv</math> Young's Modulus of Elasticity
+
:<math>Y = 140 \times 10^6N/m^2 \equiv</math> Young's Modulus of Elasticity
 
:<math>F = 1027 N  \equiv</math>point force/load
 
:<math>F = 1027 N  \equiv</math>point force/load
 
:<math>w =0.526 m \equiv</math> width of the endplate
 
:<math>w =0.526 m \equiv</math> width of the endplate

Revision as of 16:18, 7 February 2008

Introduction

R3 Description

Geometry

Material Specifications

Specific part Drawings

Endplate Deflection

Point Load Deflection

A simple calculation based on the definition of Young's modulus can yield and order of magnitude level estimate for the deflection an endplate made from polyeurethane. According to the definition of Young's modulus

[math]Y \equiv \frac{F}{4wy} \left( \frac{l}{t}\right )^3[/math]

where

[math]Y = 140 \times 10^6N/m^2 \equiv[/math] Young's Modulus of Elasticity
[math]F = 1027 N \equiv[/math]point force/load
[math]w =0.526 m \equiv[/math] width of the endplate
[math]y \equiv[/math] deflection of endplate due to point force
[math]l =4.83 m \equiv[/math] length of the endplate
[math]t = 0.051 m \equiv[/math] thickness of the endplate

A deflection of x mm results after solving the equation for y and inserting the above values.

2-D.jpg

Material Youngs Modulus Density
MPa [math]\frac{kg}{m^3}[/math]
Polyeurethane Foam FR-3700 140 240
Hexacell with holes
Carbon Fiber Rods 210 580

Distributed Load Deflection

Distributed load FEA

Carbon Rod Buckling

Compression

Buckling Load Threshold

Buckling FEA

=3-D Analysis

Summary

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