Composite Filament Winding Machine: P09226
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Transcript of Composite Filament Winding Machine: P09226
Composite Filament Winding Machine: P09226
Christofer BraytonShijo GeorgeAlex SandyTiago SantosDaniel WeimannDr. Alan NyeDr. David Orlicki
Electrical EngineerProject ManagerChief EngineerMechanical EngineerMechanical EngineerFaculty AdvisorFaculty Consultant
Sponsored by RIT Mechanical Engineering Department
Project Description• Develop a machine that produces composite tubing • Market: RIT ME Department• Future Market(s): SAE Racing teams, Aero Teams• Key high level customer needs / engineering specs:
o Robust
o Quality Control
o Ease of use
Simple but effective machine that produces limited products
Minimize raw materials (resin, fiber) Maintain fiber tension throughout process Fiber volume fraction > 50%
Operation procedure simple Easily disassembled for cleanup
System Architecture
Design Summary
Design Summary
System TestingImpregnation Quality Test
Maximum and Minimum Fiber Orientation Angles
85° 60° 55°Up to Nm = 60 RPM
Nm = 10 RPM Slip
“Dogbone” serves as filament bandwidth
Insufficient bandwidth leads to gaps in part
Further testing required to determine relationship between dimensions and bandwidth
System TestingProfile TestingΘ=75° Nm=40 RPM
85° 60° 55°
Future Work Tensioning System
Electronic Control Multi-fiber
Advanced Controls Different Cross-Sections Active Feedback Multiple/Complex Fiber
Orientations
Heated Resin Bath Temperature Control
Project Evaluation Success:
Under Budget: $1,002.33 (of $2,000.00) Accurate/Precise Winding Profiles Future Plans (Tension System, Documentation)
Setbacks: Wet wind test run Unable to test part (not produced yet)
Questions?