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Transcript of 26 Dapp PPT
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Selmon Expressway in Tampa, Florida:
Case History
of
Drilled
Shaft
DesignFor Extreme Variability
Presenter: Steven D. Dapp, Ph.D., P.E., D.GE.of Dan Brown and Associates, P.C.
Fellow Authors:Dan Brown, Ph.D., P.E., D.GE. Ross T. McGillivray, P.E.David S. Graham, E.I.
of Dan Brown and Associates, P.C.of Ardaman & Associates, Inc.
Project Location
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Project History
Original structure constructed in late 60s and early 70s Prestressed girder bridge with typical span lengths of
approximately 65 to 100
Existing bridge founded on groups of 18 square concrete piles with Hpiles in limited locations
Reversible Elevated Lanes (REL) 2003 2005 Precast box structure supported on monoshaft piers.
6 diameter shafts (a few 8 diameters crossing the canal).
All 3lanes into Tampa in morning, out of Tampa in afternoon.
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REL Failure (2004): View from Pier 98 toward 97
REL Failure (2004): View from Pier 97 toward 96
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REL Failure (2004): Pier 97
Site Stratigraphy
15 to 35 Typ.
5 to 15 Typ.(Hawthorn Group)
(Tampa Formation)
Loose Fine Sand, Often SiltySP or SM
Color Varies
Clay with Sand CH or SC
Green Gray
Highly Weathered Limestone
Light Brown or Light Gray
(Figure after Kuhns et al, 2003)
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Seismic Tomography Results at Pier 97
2Figure
Project engineer: J. M. Descour
GG r r o ouu n n d d I I m m a a g gii n n g g T T ee c c h h n n o ol l o o g g y y
GGee o o t tee c c h h n nii c c a al l SSee r rvvii c cee s s , , I I n n c c . .
Project: Ground imaging around Pier 97 CTE, Tampa, FL
For: Ardaman & Associates, Inc.
Surveyed: August 18, 2004
3,500 Seismic velocity, ft/s 8,000Color code
Three-dimensional S-wave velocity images of the ground around Pier 97.Note: Boreholes marked by red dots (sources) and blue dots (receivers).
P97-5
P97-6
P97-9 P97-7P97-8
P97-7
P97-5
P97-6P97-7
P97-5
P97-8
P97-9P97-8
P97-9
P97-6
P97-5
Weatheredlimestone?
Soft, weakground -irregular
Limestone?
Softer, lesscompetentground -irregular
Weak groundzone
Geology atPier 97 fromcore drilling
4800 5000 6200 Velocities matching color in the ground image
View from SE View from SW View from NW View from NE
0
-10
-20
-30
-40
-50
-60
-70
-80
-90
SC
CH
SC
CH
SM
CL
WeatheredLimestone
Limestone
5
Shaft Tip
REL RemediationSister Shaft Remediation Micropile Remediation
218 Shafts Total 50 required no remediation 87 required Micropile remediation 67 required Sister Shaft Remediation 14 new shafts, with alternative design
2 ft. Clear Face to Face
Micropile Layout
Non-Structural Cap
Structural Pier & Pier Head
Revised Pile Locations (typ)
PR-10 (typ)
PR-8 (typ)
Ideal PR-10
9-5/8" Dia. Pipe-Pile
3 ft. Clear
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MicropileRemediation
Sister ShaftRemediation
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Sister ShaftRemediation
Deck Widening (2012)
Project alignment approximately 1.5 miles long
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Widening Project
Owner: THEA (Tampa Hillsborough Expressway Authority) Operator: FDOT (Florida Dept. of Transportation)
The Design Build Team
Contractor: Granite Construction Drilled Shaft Sub Contractor: ATS Drilling Load Testing Specialist: AFT (Applied Foundation Testing)
Designer: PTG (Parsons Transportation Group)
Foundation Engineer: DBA (Dan Brown and Associates) Geotech Partner: Ardaman and Associates
Widening Design
Existing SPT, and New boring at each shaft.
Side Resistance only.
Initially based on
REL correlations.
Adjusted based on5 Statnamic load tests.
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The ChallengesFor Design
A means of identifying and Quantifying that strata is needed:
too hard for SPT, buttoo soft for coring
Design Process MUST account for variability of the weathered rock bearing formation.
Design Methodology
Step 1: Compile SPT data for each pier (multiple borings)Also, look at the existing driven pile tip elevations.
Step 2: Divide into layers based SPT N and soil descriptions.
Step 3: Calculate shaft capacity: based on boring at location and existing surrounding data.
Step 4: Correlate design based on comprehensive load testing.
Step 5: Exercise judgment when setting the final tip elevation.
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Step 1: Compile existing SPT data for each new pier
Step 2: Divide into layers based SPT N and soil descriptions
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Step 2: Divide into Layers
Step 2: Divide into Layers Step 3: Calculate Resistance
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Side Resistance
Base Resistance
Step 4: Correlate/Verify Based on Load Tests
Side Resistance
Base Resistance
Step 4: Calibrate/Verify Based on Load Tests
SPT blow counts weresystematically lower , even with
auto hammer corrections.
Borehole roughness andconcrete over break are
proportionally greater for
smaller diameter shafts.
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Side Resistance
Base Resistance
Step 4: Calibrate/Verify Based on Load Tests
Side Resistance
Base Resistance
Step 4: Calibrate/Verify Based on Load Tests
Side resistance derived from a combination of the different
materials in shear.
Base Resistance governed by the weaker matrix with the stronger
inclusions going along for the ride.
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Step 5: Use judgment to set final tip elevation
Load Testing at the REL
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Load Testing at the REL
Load Testing During the Widening
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Load Testing During the Widening
Design of Non Redundant Foundationsin Highly Variable Conditions Requires:
1. Through Investigation: Simple SPT delineation used(a) with a large sample population, and(b) boring at each location.
2. Comprehensive load testing across range of conditions.(a) Assign Resistances based on material, and(b) Resist temptation to delineate into finer segments.
3. Design must be robust to achieve reliability:(a) Capture the low end of the performance,(b) Then carefully consider your factor.
4. Rigorous QC/QA is required, and the designer mustremain engaged during construction.
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Thanks for Listening!