Feasibility Analysis

1. Feasibility Analysis P14415

2. Thermoforming Quote- CJK

3. DIY Vacuum Forming • Use kitchen oven to heat plastic • Use shop-vac with vacuum box shown • Build vacuum box for under $100 • Shop-vac costs $69-$299 • External Heat source possibility • Quote for New and Used Machines

4. Purchasing Vacuum Forming Mach. • Cost: $12,900 • http://www.belovac.com/

5. ABS vs. Polycarbonate Polycarbonate Pros: •Outstanding toughness •Good optical clarity •Strong and stiff •Easy to fabricate •Easy to solvent bond • • Cons: •Expensive compared to ABS •Good resistance to UV with stabilizers •Thermoforms well after drying ABS Pros: •Outstanding impact resistance •Good machinability •Easy to thermoform •Easy to bond with adhesives •Strong and stiff •Low cost • Cons: •Poor UV resistance •Becomes brittle with UV stabilizers •

6. Material Eliminations: Acrylic: Brittle Polyethylene (HDPE/LDPE): Poor material strength properties compared to ABS Polycarbonate: Expensive relative to ABS (2x the cost for most sheets) Curbellplastics.com

7. Material Research References: http://www.morganclaypool.com/doi/pdf/10.2200/S00184ED1V01Y200904MRE001 http://plastruct.com/Pages/Properties.html http://www.toolcraft.co.uk/vacuum-forming-material-specs-abs-hips-hdpe-petg-pp-pvc.htm http://www.machinist-materials.com/comparison_table_for_plastics.htm http://www.curbellplastics.com/technical-resources/plastics-properties-table.asp?cols=&compare=1,2,6,8,16,17,21,23,24&direction=desc

8. Design 1 Models

9. Design 1 Models

10. Design 1 Models

11. Design 1 Models

12. Ansys Analysis - Design 1 Summary • Max Stress: ~1.5x Ultimate Strength Values • Too high of stress values for fairly conservative model of worst case • Design is insufficient as is to move forward with • Needs redesign with added strength from additional supports: metal

13. Ansys Analysis - Modeling Summary • Worst Case and Normal Usage • Multiple Discussions with Dr. Boedo and Dr. Debartolo • Worst Case: Load (270lbs) around hole • Normal Usage: Load (270lbs) across two locations at normal stance width • Only base modeled, without material thinning • Iterative solution modeling

14. Ansys Analysis - Results Summary

15. Design 1 - Stresses: Normal Loading Circles denote peak stress locations.

16. Design 1 - Deflection: Normal Loading

17. Design 1 - Meshing: Normal Loading

18. Design 1 - Stresses: Normal Loading Circles denote peak stress locations.

19. Design 1 - Deflection: Normal Loading

20. Design 1 - Meshing: Normal Loading

21. Design 1 Feedback

22. Ansys Analysis - Conclusions • Stresses too high for a fairly conservative model • Redesign required with additional supports, such as rebar • Debartolo believed analysis and conclusions seemed valid

23. Design 2 - Analysis Assumptions • Rigid supports for deflection between ribs • Cantilevered rib bending

24. Design 2 - Analysis Deflection between rigid supports

25. Design 2 - Analysis Deflection of Ribs

26. Design 2 - Analysis

27. Design 2 - Feedback Dr. Debartolo • Assumptions inappropriate • Need to assume ribs pinned, not cantilevered • Need to assume deflection between ribs is cantilevered • Distributed load will reduce deflection between ribs

28. Design 2 - Moving Forward • Redo calculations with new boundary condition assumptions • Possibly change material based on new analysis

29. Shipping Costs- Miami To Haiti (Preliminary Analysis) -Analysis of per unit cost if container is filled to capacity -Assumptions: - One day storage before loading and after unloading (2 days total) - Weight does not affect cost - Cost per part is determined by volume

30. Shipping Costs- Data

31. Shipping Costs- Calculations

32. New Risks Risk Chart Entry: