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Geotech and pavement design information
1. Geotechnical Information for FM78 and Lakeview
1 boring made at 15 feet below surface
Approximate
Consitency
Description Depth of Material Encountered
/Density
Stratum (feet)
1 1/2 inches of Asphalt over 4 inches of
- 0 to 1/2 -
Crushed Limestone Base Material
Fill - LEAN CLAY (CL); dark brown and brown
Stratum I 1/2 to 1 Stiff
mottled
Stratum II 1 to 7 CLAY (CH); dark brown Stiff to Very Stiff
CLAY (CH); yellowish brown and gray with
Stratum III 7 to 15 Stiff to Very Stiff
gypsum crystals
Approximately 3 feet of clay should be removed and replaced with select fill
These conditions will satisfy a Condition C Foundation
*Note: Sample was taken less than 1000 feet away. This is the reason for the initial layer of asphalt in the boring sample.
Subsurface Information
Existing
Lean Clay Clay
Volumetric Changes moderate high
Plasticity Index (PI) 26% 35% to 54%
In-situ moisture content 3% 1% to 7%
11 blows for 12" 10 to 25 blows for
SPT "N" Values
penetration 12" penetration
2. Foundation Considerations
Shallow Strip Footings
Item Description
Bearing Stratum Select fill
Minimum embedment below final grade 24 inches below final grade
Bearing pressures Net allowable total load - 2,000 psf
Approximate total settlement 1 inch
Estimated approximate differential settlement 1/2 to 3/4 inch
Allowable passive resistance 1,000 psf per foot of depth
Coefficient of sliding friction 0.4
Uplift Resistance Foundation Weight (150 pcf) & Soil Weight (120 pcf)
Pavement Design Information
Flexible Pavement System
Material Thickness (inches)
Component
Parking Area Driveway
Asphalt (Type D HMAC) 1.5 2
Crushed limestone base 9 10
Moisture conditioned subgrade 6 6
Parameter Asphalt
Reliability (%) 70
Standard Deviation 0.45
Initial Serviceability Index 4.2
Terminal Serviceability Index 2
Design life of 10 years
2,000 ESAL per year in driveway areas
1,000 ESAL per year in parking areas
3. Porous Paver Information
Purchased from Belgard Company, Aqua-Roc Porous Paver will be used.
Material
Component Thickness
(in.)
Vehicular Paver 3.15
#8 Aggregate 2
#57 Aggregate 6
#2 Subbase Aggregate 6
To be used in parking stalls, as well as parking lot walkways for foot trafic.
This material will support the stormwater runoff design.
Stormwater runoff will flow under the parking lot to a system of pipes, which will direct the water to a nearby
sewer easement.
This material will also give benefit to our LEED certification goals, and also meets ADA requirements
4. Parking Lot Pricing
Asphalt Paving for Roadways, Assembly Costs
On-site roadway, with 10" thick aggregate base, 2" thick asphalt binder course, rubberized
asphalt interlayer, and 2" thick wear course.
Craft@Hrs Unit Material Labor Equipment Total
Fine grading and compact
existing subbase P5@.066 SY 0.01 2.89 2.69 5.59
Stone aggregate base,
Class 2, 10" thick P5@.02 SY 8.35 2.2 2.05 12.6
Binder course 2" thick (9
SY per ton) P5@.039 SY 11.3 1.71 1.59 14.6
Rubberized asphalt
interlayer P5@.005 SY 1.28 0.22 0.2 1.7
Wear course 2" thick (9 SY
per ton) P5@.039 SY 11.8 1.71 1.59 15.1
Tar emulsion protective
seal coat P5@.034 SY 3.51 1.49 1.39 6.39
Total estimated cost for typical 10' wide roadway, 4" paving over 4" aggregate base
Cost per SY of roadway P5@.203 SY 31.24 8.9 8.28 55.98
Asphalt Paving for Parking Areas, Assembly Costs
A vehicular porous paver will be purchased from manufacturer Belgard and used in the parking
stall areas, as well as foot traffic walkways.
For our required dimensions, a purchase price estimate including base aggregates and labor
was given to be roughly $7 per square foot.
Cost
Driveway Parking Lot
3076 SY 24937 SF
55.98 Cost/SY 7 Cost/SF
172194 Cost 174559 Cost
Total
Cost 346753.5
5. All black areas will be made up of asphalt pavement as designed in the previous pages. The grey
sections, including the parking stalls and the walkways, will be made up of the aforementioned porous
paver.