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University of Florida Rocket Team Critical Design Review Presentation

University of Florida Rocket Team Critical Design Review Presentation. Outline. Overview Vehicle Design Motor Choice Flight Dynamics and Simulations Recovery Payloads Electronics Component Testing Future Work. Design Overview. Total Length: 164.56 inches Total Mass: 76 lbs

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University of Florida Rocket Team Critical Design Review Presentation

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  1. University of Florida Rocket TeamCritical Design Review Presentation

  2. Outline • Overview • Vehicle Design • Motor Choice • Flight Dynamics and Simulations • Recovery • Payloads • Electronics • Component Testing • Future Work

  3. Design Overview Total Length: 164.56 inches Total Mass: 76 lbs Target Altitude: 10,000 ft

  4. Outline • Overview • Vehicle Design • Motor Choice • Flight Dynamics and Simulations • Recovery • Payloads • Electronics • Component Testing • Future Work

  5. Airframes Rolled with 6 oz E-class Fiberglass 7 wraps; approximately 0.07 in wall thickness 5 airframes: Upper, UEB, Middle, Lower Extension, Lower

  6. Upper Airframe Houses the piston and main parachute 32.5 inches long Separation occurs above it, at nosecone

  7. Upper Electronics Bay L-shaped bay to maximize space Hatch allows easy access Aluminum bulkheads for precision Bay Length: 19.8 inches Airframe Length: 23.125 inches

  8. Middle Airframe Houses the baffles and drogue parachute Separation occurs below it Length: 20 inches Location of upper launch lug

  9. Lower Airframe Lower extension connects to coupler and lower airframe Internal components assemble as one piece Lower extension length: 24 inches Lower Airframe length: 32 inches

  10. Motor Centering and Thrust Transfer

  11. Fins Tapered swept Height: 6 inches Root chord: 11 inches Tip chord: 3.5 inches G10 fiberglass Same attachment method as subscale

  12. Outline • Overview • Vehicle Design • Motor Choice • Flight Dynamics and Simulations • Recovery • Payloads • Electronics • Component Testing • Future Work

  13. Motor Choice

  14. Outline • Overview • Vehicle Design • Motor Choice • Flight Dynamics and Simulations • Recovery • Payloads • Electronics • Future Work

  15. Stability Characteristics Rail Exit Velocity = 72.5 ft/sec Thrust to Weight Ratio = 7.6

  16. Altitude versus Time • Maximum altitude of 10,842 feet • Drogue parachute deployment at 25 seconds (apogee) • Main parachute deployment at 237 seconds, 700 feet of altitude

  17. Velocity and Acceleration versus Time • Peak velocity of 955 ft/s at 4 seconds • Shows drogue and main parachute deployment at 25 and 237 seconds respectively • Peak acceleration of 269 ft/s2 at 1.5 seconds • Shows acceleration from drag and gravity up to apogee at 25 seconds • Constant velocity under drogue, zero acceleration

  18. Outline • Overview • Vehicle Design • Motor Choice • Flight Dynamics and Simulations • Recovery • Payloads • Electronics • Component Testing • Future Work

  19. Recovery Objectives Reusable without repairs Kinetic Energy each piece is less than 75 ft-lbf Main and drogue parachute manufactured by team GPS tracking device Crosswind drift less than 5,000ft

  20. Recovery System Drogue Deployment at apogee 60 inches in diameter Semi-ellipsoid canopy shape Charge baffle ejection system Descent velocity: 45.4 ft/s Main Deployment at 700ft 168 inches in diameter Semi-ellipsoid canopy shape Piston ejection system Descent velocity: 12.5ft/s

  21. Attachment Scheme

  22. Parachute Manufacturing Ripstop nylon Gore design Nylon upholstery thread Nylon shroud lines

  23. Parachute Testing

  24. Charge Baffle Two discs with non overlapping circular patters of holes Cools gasses from ejection charges and removes particulates Used to protect drogue parachute

  25. Kinetic Energy

  26. Outline • Overview • Vehicle Design • Motor Choice • Flight Dynamics and Simulations • Recovery • Payloads • Electronics • Component Testing • Future Work

  27. Ground Scanning System Ground Scanning System to detect hazards in the landing area Take an image of landing area Scan for potential hazards in real-time Send scanned image to Ground Station in real-time

  28. Camera Module

  29. Camera Integration

  30. Electronics Mapping

  31. Boost System Analysis Temperature Compensation Strain Gages Motor Tube Strain Gages Centering Rings Bulk Head

  32. Von Mises Strain

  33. URES Strain

  34. Triboelectric Effect Analysis Payload • Triboelectric Effect • Capacitive Sensing Technique • Experimental Setup • Payload Objectives

  35. Triboelectric Effect • The triboelectric effect (also known as triboelectric charging) is a type of contact electrification in which certain materials become electrically charged after they come into contact with another different material through friction.

  36. Capacitive Sensing Technique • Theory • C = Q/V • σ = Q/A • Voltage measurement circuit

  37. Experimental Setup • Placement of capacitive sensors • Data collection and recovery • Precision Analog-to-Digital Converter (ADC) with 8051 Microcontroller and Flash Memory Texas Instruments - MSC1210Y5PAGT

  38. Payload Objective • Obtain nose cone map of voltage vs. time • Calculate charge buildup • Relate to friction models from computational fluid dynamics simulation data

  39. Outline • Overview • Vehicle Design • Motor Choice • Flight Dynamics and Simulations • Recovery • Payloads • Electronics • Component Testing • Future Work

  40. Electronics • Power • Inputs • Communications and data processing • Recovery • Lower Bay • Image processing • Boost systems analysis

  41. Power • Provides power to entire Upper Electronics Bay

  42. Inputs

  43. Communications and Data Processing • ODROID • Communications board

  44. Recovery

  45. Lower Bay • Handles image processing • Midway point for Boost Systems Analysis

  46. Image Processing

  47. Boost Systems Analysis

  48. Outline • Overview • Vehicle Design • Motor Choice • Flight Dynamics and Simulations • Recovery • Payloads • Electronics • Component Testing • Future Work

  49. Testing • Recovery Testing • Parachute Testing Complete • Structural Testing • Compression and Shear Stress Testing Complete • Subscale Testing Complete • Electronics Testing • Motor Testing • Payload Testing

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