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SAE Mini Baja GROUP MEMBERS: JOHN MERRITT FRANCES OTHERSEN CHRIS DAVIS

Published byMercy Bryant Modified over 9 years ago

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Presentation on theme: "SAE Mini Baja GROUP MEMBERS: JOHN MERRITT FRANCES OTHERSEN CHRIS DAVIS"— Presentation transcript:

1 SAE Mini Baja GROUP MEMBERS: JOHN MERRITT FRANCES OTHERSEN CHRIS DAVIS
JAMES CHAPMAN JOSEPH FANNING

2 Objective Purpose: Design and build an off road vehicle to meet the specifications of the SAE Baja competition. Tasks: Design a rear suspension to include passive rear steering and design a traditional trailing link. Design a two speed gearbox with spur gears. Total Budget: $12,000 Projected Completion date: April 30, 2015 Goal: Place in the top ½ of competitors overall.

3 Work Breakdown Gearbox Members: Suspension Members: Chris Davis
John Merritt Overall team leader Lead Design Frances Othersen Analytical testing Scribe James Chapman Design/Material Selection Suspension Members: Chris Davis Analytical Testing Scribe Joseph Fanning Lead design

4 Gantt Chart

5 Budget Analysis The total budgeted cost that we have accumulated so far is $1,171.28 We have chosen to go with a spur gearbox vs. the helical gear box with some of the main issues being time to manufacture and cost. A helical would take about three weeks at $2000 vs .the Spur at about $700 plus and 2-3 business days to acquire In addition we have chosen to go with a standard trailing arm link suspension vs. the passive rear steer with similar issues of time and cost to manufacture. For example going with the standard link suspension system will be about $700 cheaper and we will have less components to manufacture

6 Current Gearbox Progress
Top View Side View Gear Ratios: :1 11.2:1 Isometric View

7 Gearbox Analytical Test
Gear 6 Maximum Deflection: 3.354e-005 inch Gear 5 Maximum Deflection: 2.855e-005 inch

8 Rear Suspension Traditional Trailing Arm
Isometric View Rear View

9 Current Rear Suspension with Passive Rear Steer Progress
Pivots about two points Mounting point allows for one extra degree of freedom Isometric View Assembly

10 Current Rear Suspension with Passive Rear Steer Progress
Completed swing arm design with passive steering Right Side View Top View

11 Current Rear Suspension Progress
Side View Assembly Rear View Assembly

12 Rear Swing Arm Analysis
Analytical Test SolidWorks Analytical Test SolidWorks Deformation results without shock absorbers: Patran: Max deformation 6.94e-001 in SolidWorks: Max deformation: 2.545e-003 in

13 Rear Passive Steering Knuckle Analysis
Force Applied= ½ * Driver Weight + ½ * Cart Weight Results: Max deformation of hub = 2.27e-005 in Max deformation mounting points = 2.058e-003 in

14 Next Steps Analytical testing of specific areas of concentrated stresses Order remaining material Manufacturing Testing fitting Assembly Driver Selections Competition preparation Frame Design

15 THANK YOU

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