Southeastern Sustainability Center Addition By: Andrew LeBlanc ET-494 Fall 2013-Spring 2014 Advising...
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![Page 1: Southeastern Sustainability Center Addition By: Andrew LeBlanc ET-494 Fall 2013-Spring 2014 Advising by: Rudolph Rode and Byron Patterson.](https://reader035.fdocuments.net/reader035/viewer/2022062716/56649de75503460f94ae0baa/html5/thumbnails/1.jpg)
Southeastern Sustainability Center
AdditionBy: Andrew LeBlanc
ET-494
Fall 2013-Spring 2014
Advising by: Rudolph Rode and Byron Patterson
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Objective
To design and construct a building in which has the following attributes:
24’x24’
Able to be multifunctional
Leave potential for future development
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Overall vision
Self sufficient = Save $$$
Begin 10 year plan
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Desires in Building:
Pellet Mill functional
Solar panels
OHD door
Eye wash station
Fire sprinkler system
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Basic parts
Rigid frame column and rafter- main structural system
Girts and Purlins- secondary structural members
Posts- supports structural members
Jambs- doors, windows
X-Bracing- the lateral load on a building is reduced by transferring the load into the exterior columns.
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Basic Connections
Roof purlins- butt joint
Roof purlins and sidewall girts- prepunched holes
Columns- anchor bolts
Door jambs- open C channel and C sections
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Flush and Bypass
Flush girts provide no air space between the columns and exterior panels yet offer the maximum amount of floor space.
The Bypass girt makes a continuous run around the outside of a building’s columns, providing an air space the width of the girt between the column and exterior panels.
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Accomplishments (Fall 2013) Research of metal structures
Osha specifications and regulations
Floor plan
Electrical plan
Foundation plan
Sewage plan
Plumbing plan
Elevations
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Plans
Floor plan
Location of columns, openings
X-bracing
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Plans
Elevations
Openings
Heights
Overall look of building
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Accomplishments Spring 2014
Eave strut details
Sheeting details
Wall details
Roof framing
Roof details
Connection details
Calculations
Gather materials list
Estimate
Microsoft Project schedule of tasks
Constructed mini model
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Plans
Purlin plan
Shows column location
Offset of purlins
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Plans
Eave details
Tapered column connection
Siding, trim and roofing connections
insulation
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Plans
Anchor rod connections
Where to place bolts in concrete
Connect to columns
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Calculations- Types of loads
D = Dead load
L = Live load
LR = Roof live load
S = Snow load
R = Rain load
W = Wind Load
E = Earthquake load
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LRFD Load Combinations:
Gives the overall compression or tension in members in steel buildings:
1.4D
1.2D + 1.6L + 0.5(Lr or S or R)
1.2D + 1.6 (Lr or S or R) + (0.5L or 0.8W)
1.2D + 1.6W + 0.5L + 0.5 (Lr or S or R)
1.2D + 1.0E + 0.5L +0.2S
0.9D + (1.6W or 1.0E)
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LRFD (Load & Resistance Factor Design)
LRFD Load Combinations for Southeasten’s Sustainability Center Addition, given: D = 30kips, L = 30kips, W = 12.5 kips
1. 1.4D = 1.4(30k) = 42k
2. 1.2D + 1.6L + 0.5(Lr or S or R) = 1.2(30k) + 1.6(30k) + 0 = 84k
3. 1.2D + 1.6 (Lr or S or R) + (0.5L or 0.8W)
= 1.2(30k) + 0 + 0.5(30k) = 51k
= 1.2(30k) + 0 + 0.8(12.5k) = 46k
4. 1.2D + 1.6W + 0.5L + 0.5 (Lr or S or R)
= 1.2(30k) + 1.6(12.5k) + 0.5(30) + 0 = 71k
5. 1.2D + 1.0E + 0.5L +0.2S = 1.2(30k) + 0 + 0.5(30) + 0 = 51k
6. 0.9D + (1.6W or 1.0E) = 0.9(30k) + 1.6(12.5k) = 47k
In which I found to be 84k compression (+)
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Buckling load
A W8 x 28 section was selected for a pinned-pinned connection as follows; with a length of 12 ft.
K=1.0, ry=1.62, Fy=50Ksi (found in AISC manual)
Slenderness ratio: KL/r= 88.89 (unitless)
Pu=4.71(E/Fy)^1/2= 113.43
If, KL/r < Pu
Then, Fcr=[0.658^(Fy/Fe)]Fy
Now, Euler’s equation: Fe=∏^2 E/ (KL/r)^2 = 36.22 ksi
Plug in, Fcr=28.06 ksi= 28,060 psi
elastic buckling-slender columns that have a large slenderness ratio and failure is before any yielding in the materials.
inelastic buckling occurs for intermediate columns that have a moderate slenderness ratio and the failure occurs by both the buckling and the materials yielding simultaneously
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Codes, Specifications and Standards
Building Codes Most used single national building code: the International Building
Code (IBC)
Legal documents which protect public safety.
• Minimum design loads
• Detailed design, construction and inspection rules for structures in general
1) Building occupancy classifications
2) Building heights and areas
3) Interior finishes
4) Foundation, wall, and roof construction
5) Fire protection systems (sprinkler system requirements and design)
6) Materials used in construction
7) Means of egress
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Specifications Specifications are design guidelines and
recommendations
ACI (American Concrete Institute)
3500PSI concrete is used for applications where significant loading is expected. Uses include building footings, bond beams, grade beams, and floor slabs where heavy loads may be moved or stored.
AISC (American Institute of Steel Construction)
Specification for Structural Steel Buildings
Code of Standard Practice for Structural Steel Buildings
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Specifications
2500psi- walkways, driveways
3000 psi- standard
3500 psi- where surface spalling isn’t acceptable
4000 psi- heavy constant loads 2500 psi
3500 psi
4000 psi
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Local codes and standards
Fire marshal and city of Hammond approval
Approves drawn plans by stamping ensuring they meet requirements such as:
NFPA 13, 13D, 13R - Sprinkler Systems
NFPA 17 - Dry Chemical Extinguishing
NFPA 10 - Fire Extinguishers
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Estimate
an approximate calculation or judgment of the value, number, quantity, or extent of a job
Gives approximation of total project cost
Detailed description of materials used
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Estimate
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Time scheduling
MS Project 2013
Total completion time: 6 weeks
Seven laborers working 40 hours weeks
Monday-Friday, 8am-5pm
Tracks progress and gives timelines to meet
Total cost:$22,500
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Construction of mini model
A 1:12 scale model was designed
Hinged roof
2 OHD doors
Matted board for siding and roofing
White felt for insulation
Parts labeled by color
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References Council, International Code. "IBC 2009 Building Codes." Law.resource.org.
International Code Council, 17 Mar. 2009. Web. 17 Feb. 2014.
Delaune, Joe. “Public Safety Services memorandum.” sfm.dps.louisiana.gov. 2014. Web. April 29, 2014.
Johnson, Alford. “American Institute of Steel Construction, Inc.” www.aisc.org. 2002. Web. April 14, 2014.
Maluinu, Jamie. "How to Calculate Wind Load." wikiHow. N.p., 10 Apr. 2012. Web. 1 Feb. 2014.
Mangan Communications. “OSHA 29CFR1910.” www.osha.gov. Jun. 2013. Web. April 21. 2014.
McCormac, Jack C. and Stephen F. Csernak. Structural Steel Design Fifth Edition. New Jersey: Pearson, 2012.Text Book.
"Sprinkler Head Spacing and Location." The architect's technical resource. www.archtoolbox.com. Arch Media, 20 Dec. 2006. Web. 13 Apr. 2014.
Sunward, Jonthan. "Erection." Erection. www.scg-grp.com. 7 Mar. 2010. Web. 10 Jan. 2014.
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QUESTIONS