Download - Engineering 309: Machine Design I Instructor: Dr. Min Lu Presented by: Mike Kraft Thanh Nguyen
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Engineering 309: Machine Design I
Instructor: Dr. Min Lu
Presented by: Mike Kraft
Thanh Nguyen
![Page 2: Engineering 309: Machine Design I Instructor: Dr. Min Lu Presented by: Mike Kraft Thanh Nguyen](https://reader030.vdocuments.us/reader030/viewer/2022032606/56649eb75503460f94bc0b2d/html5/thumbnails/2.jpg)
Benchmarking Commonly used bicycle frame
measurements
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Benchmarking Commonly used bicycle frame
measurements 21 – 23 inches for a European men’s
racing bicycle 18.5 inches for a men’s mountain bicycle Tubes of the frames are made of steel,
aluminum alloys, titanium, carbon fiber. Target population: mountain bike for adult
male
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Template
Template was built using anthropometric data for an adult male.
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Anthropometric Data
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Template
Template was built using anthropometric data for an adult male.
The template was scaled by a factor of 1/2
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Beam Model Used for design iterations It was expected that Beam Model is the best
choice for FEA analysis 3D beam element was used Aluminum alloy 2024-T4 was chosen
Young’s Modulus: 10.6 x 106 psiYield Strength: 47,000 psi Poisson ratio : 0.33
Factor of Safety: 3
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Beam Model – Pre Processing
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Beam Model – Loading Calculations
Design iterations were performed on 3 different load cases: 200lbf load concentrated on the seat, pedal, and handle bar
1. A tube size was chosen2. Apply load at the desired location3. Obtain deflection result from ANSYS
4. Calculate frame stiffness, kframe
5. Calculate equivalent stiffness, keq
6. Calculate static deflection, δst
7. Calculate DAF and Dynamic Load8. Apply dynamic load and obtain maximum bending moment
and stress from ANSYS Calculations were repeated for different tube size in order
to find the optimal tube size for the design
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Conclusion Optimal tube size: 1”OD x 0.75” ID Max Bending Stress with FOS = 3:
Seat: 38,745 psiPedal: 12,377 psiHandle Bars: 6,886 psi
Max Bending Stresses for all three load cases are less than the yield stress (47,000 psi)
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Choosing the Best Design
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Solid Modeling High stiffness value, k May result in under performance Analyzes the volume of the structure
Surface Modeling Low stiffness value, k May result in over designing structure Analyzes the surface area of the
structure
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Meshing of Solid and Shell
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Solid Modeling Stress Analysis
Solid modeling meshes the volume of the model
Maximum stress: 61,075 psi
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Surface Modeling Stress Analysis
Surface modeling meshes the surface area of the model
Maximum stress: 124,725 psi
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Maximum Stress Analysis
Seat Pedals Handle Bars
o Applied force at the seat yields the highest stress
o Beams with stress above the maximum allowable
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Final Design Beam method Isolate greatest maximum stress Choose beam size to lower stress as
necessary
Three beam sizes necessary1” O.D. with 1/8” Wall5/8” O.D. with 1/16 Wall1/2” O.D. with 1/16” Wall
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Final Design Stress Analysis