EDMUND FINLEY TRISHA LOWE NICK MENCHEL ANNA SLEETER 60% DESIGN PRESENTATION.

EDMUND FINLEYTRISHA LOWE

NICK MENCHELANNA SLEETER

60% DESIGN PRESENTATION

30% DESIGN

TO AVOID THIS…

LIVE LOADS

Vehicle Gross Weight (kg)

Wheelbase (m)

Track (approx., m)

17’ U-Haul 6373 4.47 2.14

14’ U-Haul 4990 4.09 1.98

10’ U-Haul 3901 3.53 1.68

Pick-Up Truck

2921 3.68 1.70

Standard Size Car

1652 2.87 1.63

BEAM DESIGN LOAD CALCULATIONS

Live Loads (37.5% of the weight of a 17’ U-Haul)

Dead Loads (due to slab)

Using beam design program, d=0.2032 m (assuming 0.15 m deep slab)

23444.7 N

11722.35 N

11722.35 N

10210.89 N

10210.89 N

6828.02 N/m

3 m

SLAB DESIGN LOAD CALCULATIONS

Widest Load Spacing, Narrowest Beam Spacing

Limiting caseMaximum Moment: 6534.7 N*mMinimum Depth: 0.15 mDesigned as a beam

667.47 N

667.47 N

23,444.7 N

23,444.7 N

24,112.2 N

24,112.2 N

0.1016 m

0.68 m

1.63 m

3.5 m

• 667.47 N load is from curb• 23,444.7 N load is from 37.5% of the weight of a 17’ U-Haul Truck

SLAB DESIGN CONSIDERATIONS

Determined optimal beam spacing (1.90 m) Used different track measurements

Cases Considered Each of the four vehicles centered on the span Each of the four vehicles as far to one edge as possible Smallest and largest vehicles with one tire centered on the

span (basically the same as vehicle at edge)

Checked against 0.15 m slab depth to ensure that the moment created would be safe

0.15 m was estimate for slab depth used when designing beam, so recalculation was not necessary

PIER DESIGN

Designed as a wall3.5 m x 0.3048 m x 2 m

2 m

3.5 m0.3048 m

AMOUNT OF CONCRETE AND FILL

Concrete 2 beams spanning piers, slab spanning crossing, 5

piers Total volume: 28 cubic meters

Fill Around culverts Total volume:

UPDATED PROFILE VIEW

PLAN VIEW

WHAT COMES NEXT

Determine footing for piersAdjust pier shape if necessaryCheck moment calculations to ensure slabs

and beams are thick enoughDesign armoringDesign curb on slabDesign reinforcement for concrete