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Prototype Presentation

Prototype Presentation. Stephanie Moran, Ryan Rosario, Zachary Stauber , Bethany Tomerlin , Juan Carlos Ybarra . We modified our goals to more suitably match our application. Inexpensive High Elongation (>10%) Fast Response Time Precision.

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Prototype Presentation

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  1. Prototype Presentation Stephanie Moran, Ryan Rosario, Zachary Stauber, Bethany Tomerlin, Juan Carlos Ybarra

  2. We modified our goals to more suitably match our application Inexpensive High Elongation (>10%) Fast Response Time Precision

  3. Improvements to be Made to Our System in Order to compete with existing Motion Capture Technologies • We need: • Movement through Space • Rotation • Real Time Feedback Can act as a supplement • Reduce Errors

  4. Our Product Could Be Used to Monitor and Provide Feedback for Joint Extension • Inexpensive • Output of strain • Track degenerative diseases • Posture Feed Back Loops • Need to reduce distractibility

  5. Current Processing Technique

  6. Current Processing Technique

  7. Current Processing Technique

  8. Current Processing Technique Calender

  9. Bubbles Create Stress Concentrators In Rubber Ippolito, M. Physical Review, 75, 224110 (2007).

  10. Bubble Removal with Vacuum Before Vacuuming

  11. Bubble Removal with Vacuum Before Vacuuming During Vacuuming

  12. Bubble Removal with Vacuum Before Vacuuming During Vacuuming After Vacuuming

  13. Improvements in Processing to Help Consistency Weighing Carbon Black Alternating Mixing Time

  14. Optimized Measurement Set-Up

  15. Characterized Samples, Normalized and Real Data

  16. Hysteresis of Samples

  17. Sample used in Prototype

  18. Minimum Goals for Strain Sensor Prototype Minimum Requirements: Sensor MC Text Output: Strain vs. Resistance R = 453.9 ε 3 - 198.7 ε 2 + 95.23 ε + 5.597

  19. Glove for Final Design Final Design: • Output: • Resistance vs. Strain • Position of sensor Bread Board Arduino Multiplexer Amp MC

  20. We plan on altering our current process to yield more reproducible samples Better dispersed phase Optimize void removal

  21. Gantt Chart 22

  22. Conduction in the composite cannot be explained by tunneling, but can be modeled by Mean Field Theory. e- e- 30nm

  23. Complete Circuit Design MC

  24. Normalization of Data

  25. Comparisons of Processing Techniques

  26. Comparisons of Processing Techniques

  27. Failure vs. Hole Radius Size

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