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Evaluating Construction Methods for an Electrical Transition Compound

Evaluating Construction Methods for an Electrical Transition Compound. Christopher O’Connor Andrew Canniff. Abstract. Evaluating Construction Methods Design Evaluation Criteria Cost Estimates Construction Schedules Environmental Impact Durability & Lifespan Required Maintenance

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Evaluating Construction Methods for an Electrical Transition Compound

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  1. Evaluating Construction Methods for an Electrical Transition Compound Christopher O’Connor Andrew Canniff

  2. Abstract • Evaluating Construction Methods • Design Evaluation Criteria • Cost Estimates • Construction Schedules • Environmental Impact • Durability & Lifespan • Required Maintenance • Availability of Labor & Materials • Recommendation • Alternative Option

  3. SK-1: Ground Floor Plan and Roof Plan

  4. SK-2: Elevation

  5. SK-3: Site Plan

  6. Summary of Options • Cast in Place Concrete • Concrete Masonry Unit (CMU) • Insulated Concrete Forms (ICF) • Precast Concrete • Structural Steel

  7. Cast in Place Concrete • Formwork • Reinforcing steel (Rebar) • Mix-designed concrete • Pouring Stages • Scaffolding and Bracing • Weatherproofing

  8. Concrete Masonry Unit (CMU) • CMU Block • Horizontal Bracing • Vertical Reinforcing Steel (Rebar) • Grouting • Scaffolding and Bracing • Weatherproofing

  9. Insulated Concrete Forms (ICF) • ICF Block • Polystyrene Foam Insulation • Acts as permanent formwork • Mix-Designed Concrete • Pouring Stages • Vertical and Horizontal Reinforcing Steel (Rebar) • Scaffolding and Bracing • Weatherproofing

  10. Precast Concrete • Offsite Fabrication of Reinforced Concrete Panels • Installation of Panels • Bracing • Weatherproofing

  11. Structural Steel • Offsite fabrication of beams, columns, and exterior steel panels • Installation of steel elements • Bracing • Weatherproofing

  12. Design Evaluation Criteria

  13. Cast in Place Concrete • Cost: $990,457.10 • Construction Duration: 24.5 weeks

  14. CMU • Cost: $895,957.10 • Construction Duration: 31 weeks

  15. ICF • Cost: $898,601.70 • Construction Duration: 23.5 Weeks

  16. Precast Concrete • Cost: $1,147,957.10 • Construction Duration: 22 Weeks

  17. Structural Steel • Cost: $929,674.85 • Construction Duration: 20 Weeks

  18. Final Design Evaluation Criteria

  19. Comparison of Durations & Costs

  20. Recommendations • Structural Steel • ICF

  21. Acknowledgements • DaBoys would like to sincerely thank all members of the Dartmouth Stantec Office for not only all of your assistance throughout this project but also making both of us feel right at home.

  22. Questions?

  23. Picture Reference • http://www.baruzzini.com/images/large/image-12.jpg • http://knoji.com/images/user/cmu-1.JPG • http://heatherwestpr.com/blog/wp-content/uploads/2009/08/tufut.jpg?w=150 • http://www.idevelop.ie/ibuild/images/ICF.jpg • http://media.treehugger.com/assets/images/2011/10/icfsketch.jpg • http://www.actonprecast.com/admin/ktmlpro/images/uploads/Catello%20Pumphouse.jpg?0.7051663490068698 • http://www.designindustriesinc.com/Precast_Concrete_Wall_Install_1.JPG • http://3.imimg.com/data3/JJ/OG/MY-4119982/structural-steel-frame-commercial-building-250x250.jpg • http://ciabuildings.com/wordpress/wp-content/uploads/2011/02/PICT01861-550x412.jpg

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