Concrete Retaining Wall Design Example
This design example focuses on the analysis and design of a tapered cantilever retaining wall including a comparison with model results from the engineering software programs spwall and spmats.
Concrete retaining wall design example. Bending strengthof the section has been reduced by about 15 shear strengthat wall base has been reduced by about 14. Strength reduced from 136 7 to 116 8 in kips. Development of structural design equations. Wall thickness 12 in.
Retaining walls design and construction guide edition e3 may 2013 supersedes all previous editions. Design and analysis of retaining walls 3 f crib walls or coffer dams are cells or units to be filled with soil or built up members of pieces of precast concrete or metal and are supported by anchor pieces embedded in the soil for. Two equations are developed in this section for determining the thickness reinforcement required to resist the bending moment in the retaining wall components stem toe and heel. Dowels reinforcing steel placed in the footing and bent up into the stem a distance at least equal to the required development length.
Unit weight of concrete ɣ c. Conditions and wall geometry n a design example which demonstrates the use of the australian standard and. 305 mm f m 1 500 psi 10 3 mpa assumed weights. Design the reinforced concrete masonry cantilever retaining wall shown in figure 2.
Batter the slope of the face of the stem from a vertical plane usually on the inside earth face. Foundation engineering chapter 8. Design a reinforced concrete retaining wall for the following conditions. In this example the structural design of the three retaining wall components is performed by hand.
Reinforced concrete masonry gravity retaining walls relying on gravity loads to resist the overturning. 3 clear rather than the designed 2 clear. F c 3000 psi fy 60 ksi. Development of structural design equations.
Figure a 1 retaining wall cross section. 3500 psi concrete 5 10. F c 3000 psi fy 60 ksi. Soil bearing capacity q all.
The coefficient of friction between the footing and foundation soil k 1 is 0 25 and the allowable soil bearing pressure is 2 000 psf 95 8 kpa ref. Assuming that the allowable bearing pressure of the soil is 120 knm 2 the coefþcient of friction is 0 4 and the unit weight of reinforced concrete is 24 knm 3 1. Ce 437 537 spring 2011 retaining wall design example1 8. Ce 537 spring 2011 retaining wall design example1 8.
Example 3 16 design of a cantilever retaining wall bs 8 110 the cantilever retaining wall shown below is backþlled with granular material having a unit weight of 19 knm 3 and an internal angle of friction of 30. Assume level backfill no surcharge or seismic loading active earth pressure and masonry laid in running bond. In this example the structural design of the three retaining wall components is performed by hand. 30 unit weight of soil ɣ s.
Precast in a factory or formed on site and considered economical up to about 25 ft in height. The slope is usually expressed as a ratio of horizontal to vertical e g. Retaining wall design example. Consider the cantilever retaining wall with the cross section shown in the above figure a 1 which retains a 2m depth of soil having the groundwater table at 1 0m level.
Shear strength reduced from 7654 lbs to 6589 lbs. Design a reinforced concrete retaining wall for the following conditions.