Nick Bloom Logan Kibler Philip Ritenour Scott Miner Matt Susa Team “GT 1” Baja SAE - #48 car Collegiate Design Series Society of Automotive Engineers Part 1/2 Nick Bloom Logan Kibler Philip Ritenour Scott Miner Matt Susa EGR 481/482 Senior Design Progress Report January 20, 2010
Overview of Presentation Competition abstract & description Goals Cost & fundraising Design Remaining work Acknowledgements Questions
Competition Abstract Exists “to simulate real-world engineering design projects and their related challenges.” (10.1, 2010 Baja SAE Rules)
Project Description “Teams must design, build, test, promote, and compete with a vehicle within the limits of the rules.” (10.1, Rules) Teams compete for manufacturing acceptance by a fictitious firm Competition location: Western Washington University Bellingham, WA May 19-22, 2010
Video Clip from University of Louisville 2009 Baja SAE team (play 0:04 - 1:00) www.youtube.com/watch?v=k6zpluQRgu4
2010 Baja SAE - Dynamic Events
2010 Baja SAE - Endurance Event
Competition Scoring Breakdown 2010 Western Washington Competition Scoring Static Events (300 points) Points Design Report 50 Evaluation 100 Cost Report & Production Cost Sales Presentation Dynamic Events (700 points) Acceleration 75 Hill Climb Maneuverability Rock Crawl Endurance 400 Total 1000
Goals Design goals Performance goals 400 pound curb weight 12 inches of ground clearance Short wheel base Well-balanced Durable Performance goals Successfully completing all events
Fundraising Efforts IA office – engineering alumni mailing for Baja SAE, AISC Steel Bridge, and Solar Splash teams (~$1,000 raised for each) IA office - targeted corporate mailing sent out (planning phone follow-up to these and many more companies) Planning a t-shirt sale Approaching GCSU for direct support
Competition Entrance Fee $1,000.00 Travel Expenses $3,750.00 Cost Estimate Category Amount Competition Entrance Fee $1,000.00 Travel Expenses $3,750.00 Vehicle Parts & Fabrication $4,750.00 Safety Equipment $500.00 Grand Total $10,000.00
Design Overview Frame Drive train Suspension
Frame Design
Initial Decisions Examined other Baja vehicles for ideas Fairmont State Grove City Oregon State Simplistic frame geometry / compact nature of the vehicle. Team has placed in the top 10 consistently, and won 1st place at last year’s regional competition.
Oregon State Baja SAE Vehicle
Purpose/Function Structural rigidity and stability to vehicle Protects driver Rollover injury Significant impacts Large suspended objects Mounting location for seat and harness
Design Considerations SAE specified parameters Required members (i.e. lateral diagonal bracing, side impact member, under seat member) Rear roll hoop width (≥ 29” at 27” above seat) 6” minimum clearance from top of helmet of tallest person to top of roll cage Gusseting joints where continuous tubing is not used Butt joints must be reinforced with welded sleeve
Design Considerations Steel Equivalent bending strength and stiffness of ASTM 1018 steel with 1” O.D. and .12” wall thickness (31.5) Via calculations, determined sufficient replacement to be 4130 chromoly, 1.25” O.D. and .065” wall thickness
Design Considerations Group specified considerations Adequate width to accommodate hand clutch Room for feet for accelerator and brake pedals Proper seat mounting Shocks, bumps, people’s legs falling asleep Steel providers McMaster Carr, OnlineMetals.com, O’Neil Steel, KenMac Metals, Steel Sales of Pittsburgh, Youngstown Pipe & Supply Co., Trinity Metals and Welding, Dillsburg Aeroplane Works McMaster- $7.41/foot OnlineMetals.com- $5.41/foot Dillsburg Aeroplane Works- $2.38/foot
Design Considerations Steel purchased 4130 steel tubing 1.25” OD, .065” wall thickness 4130 steel tubing 1.25” OD, .049” wall thickness 4130 steel tubing 1.25” OD, .035” wall thickness Section 31.2.1 states that only certain required members must have a minimum thickness of .065”; all others can be as small as .035” Fabrication method: MIG (GMAW) Welding
Design Conception Measurements taken by placing tallest driver in simulated driving position Also used to integrate front suspension with front of body and pedals
Frame Concepts – RRH (1/2)
Frame Concepts – RRH (2/2)
Frame Concepts – RRH & Back
Frame Concepts – Drive System
Future Goals Finish design of front half of vehicle Begin cutting, bending, welding, etc. Mate frame to suspension components Install engine and drive train components Finish smaller details (pedals, controls, steering, etc.)
Design Future Fairmont State University Baja SAE frame