Pile Foundation Design & Construction
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Transcript of Pile Foundation Design & Construction
![Page 1: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/1.jpg)
PILED FOUNDATION PILED FOUNDATION DESIGN & CONSTRUCTIONDESIGN & CONSTRUCTION
By Ir. Dr. Gue See Sewhttp://www.gnpgeo.com.my
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ContentsContents
Overview
Preliminary Study
Site Visit & SI Planning
Pile Design
Pile Installation Methods
Types of Piles
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Contents (ContContents (Cont’’d)d)Piling Supervision
Pile Damage
Piling Problems
Typical Design and Construction Issues
Myths in Piling
Case Histories
Conclusions
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Overview
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What is a Pile Foundation
It is a foundation system that transfers loads to a deeper and competent soil layer.
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When To Use Pile Foundations
• Inadequate Bearing Capacity of Shallow
Foundations
• To Prevent Uplift Forces
• To Reduce Excessive Settlement
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PILE CLASSIFICATIONPILE CLASSIFICATION
Friction Pile– Load Bearing Resistance derived mainly
from skin friction
End Bearing Pile– Load Bearing Resistance derived mainly
from base
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Friction Pile
Overburden Soil Layer
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End Bearing Pile
Rock / Hard Layer
Overburden Soil
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Preliminary Study
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Preliminary StudyPreliminary Study
Type & Requirements of Superstructure
Proposed Platform Level (ie CUT or FILL)
Geology of Area
Previous Data or Case Histories
Subsurface Investigation Planning
Selection of Types & Size of Piles
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Previous Data & Case Previous Data & Case HistoriesHistories
Bedrock Profile
Existing Development
A
Existing Development
BProposed
Development
Only Need Minimal Number of Boreholes
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Challenge The Norm Thru Innovation To Excel
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SELECTION OF PILESSELECTION OF PILES
Factors Influencing Pile Selection– Types of Piles Available in Market (see Fig. 1)– Installation Method– Contractual Requirements– Ground Conditions (eg Limestone, etc)
– Site Conditions & Constraints (eg Accessibility)
– Type and Magnitude of Loading– Development Program & Cost– etc
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TYPE OF PILES
DISPLACEMENT PILES NON-DISPLACEMENT PILES
TOTALLY PREFORMED PILES(A ready-made pile is driven or jacked
into the ground)
DRIVEN CAST IN-PLACE PILES(a tube is driven into ground to
form void)
Bored piles Micro piles
HollowSmall displacement
Solid
Steel Pipe Concrete Spun Piles
Concrete Tube
Closed ended tube concreted with tube left in position
Closed ended tube
Steel Tube
Open ended tube extracted while concreting (Franki)
Concrete Steel H-piles(small displacement)
Bakau pilesTreated timber pile
Precast R.C. piles
Precast prestressed piles
FIG 1: CLASSIFICATION OF PILES
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BA
KA
U P
ILE
S
TIM
PE
R P
ILE
S
RC
PIL
ES
PS
C P
ILE
S
SP
UN
PIL
ES
STE
EL
H P
ILE
S
STE
EL
PIP
E P
ILE
S
JAC
KE
D P
ILE
S
<100 KN a a a ? ? ? ? a x ? a
100-300 a a a ? ? a a a x a a
300-600 ? a a a a a a a a a a
600-1100 x ? a a a a a ? a a ?
1100-2000 x ? a a a a a ? a a ?
2000-5000 x x a a a a a ? a a ?
5000-10000 x x a a a a a x a a x
>10000 x x ? a a a a x a ? x
<5m ? ? ? ? ? ? ? x a a ?
5-10m a a a a a a a ? a a a
10-20m ? ? a a a a a a a a a
20-30m x x a a a a a a a a a
30-60m x x a a a a a a a ? a
a a a a a ? a a a ? a
a a a a a a a a a ? a
? ? ? ? ? a a a ? a a
x x a a a a a ? a a ?x x ? ? ? a a ? a a ?x ? a a a a a a a a a
a a a a a a a a a ? a
a a a a a a a a a a a
? a a a a a a a a a a
x ? a a a a a a a a a
a a a a a a a a a a a
? a a a a a a a a a a
x ? a a a a a a a a a
V. DENSE SPT > 50 x x a a a a a ? a a ?
S < 100 mm x ? a a a a a a a a ?
100-1000mm x x ? ? ? a a ? a a x
1000-3000mm x x ? ? ? ? ? ? ? a x
>3000mm x x ? ? ? ? ? ? ? a x
a a a a a a a a a a a
x a a a a a a a a a a
a a ? ? ? ? ? a a a a
? ? ? ? ? ? ? a ? a a
1-2 0.5-2 1.5-3 1-2.5
AU
GE
RE
D P
ILE
S
COMPRESSIVE LOAD PER COLUMN
SC
ALE
OF
LOA
D
(STR
UC
TUR
AL)
1.0-3.5
PREVENTION OF EFFECTS ON ADJOINING STRUCTURES
(SUPPLY & INSTALL) RM/TON/M 0.5-2.5 0.3-2.0
LOOSE SPT < 10
UNIT COST
GROUND WATER
TYP
E O
F IN
TER
ME
DIA
TE L
AY
ER
GE
OTE
CH
NIC
AL TY
PE
OF
BE
AR
ING
LA
YE
RB
EA
RIN
G T
YP
E
ENVIRONMENT
MIC
RO
PIL
ES
BO
RE
D P
ILE
S
PREFORMED PILES
M. DENSE SPT = 10 - 30
MAINLY END -BEARING (D=Anticipated depth of bearing)
PARTLY FRICTION + PARTLY END BEARING
MAINLY FRICTION
LIMESTON FORMATION
M. STIFF SPT = 4 - 15
V. STIFF SPT = 15 - 32
HARD SPT > 32
DENSE / VERY DENSE SAND
SOFT SPT < 4
WEATHERED ROCK / SOFT ROCK
NOISE + VIBRATION; COUNTER MEASURES REQUIRED
BELOW PILE CAP
ROCK (RQD > 70%)
DENSE SPT = 30 - 50
COHESIVE SOIL
COHESIVELESS SOIL
SOIL WITH SOME BOULDERS / COBBLES (S=SIZE)
ABOVE PILE CAP
DESIGN CONSIDERATIONS
TYPE OF PILE
LEGEND :
8
x
?
INDICATES THAT THE PILE TYPE IS SUITABLEINDICATES THAT THE PILE TYPE IS NOT SUITABLE
INDICATES THAT THE USE OF PILE TYPE IS DOUBTFUL OR NOT COST EFFECTIVE UNLESS ADDITIONAL
MEASURES TAKEN
FIG 2 : PILE SELECTION CHART
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Pile Selection Based on Cost
RM 110.00 / m--Drilling in Soil
RM 240.00 / m--Drilling in Rock
RM 120.00 / m--API Pipe
RM 85.00 / m--Grouting
RM 150.00 / Nos--Pile Head
RM 4,297.50 / NosRM 1,066.00 / NosRM 967.00 / NosEst. Ave. Cost Per Point
RM 380,825.00RM 184,620.00RM 190,261.00Est. Foundation Cost
√
RM 200.00 / Nos--Movement
-RM 200.00 / NosRM 200.00 / NosCut Excess, Dispose + Starter Bars
-RM 32.00 / mRM 30.00 / mDrive
-RM 42.00 / mRM 33.00 / mSupply
RM 20,000.00RM 50,000.00RM 50,000.00Mob & Demob
Indicative Rates :
2.5m--Average Rock Socket Length
9m9m9mAverage Length
707083Total Points
Micropile300mm Spun Piles250mm Spun PilesDetails:
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Site Visit and SI Planning
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Site VisitSite VisitThings To Look For …
Accessibility & Constraints of Site
Adjacent Structures/Slopes, Rivers, Boulders, etc
Adjacent Activities (eg excavation)
Confirm Topography & Site Conditions
Any Other Observations that may affect Design and Construction of Foundation
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Subsurface Investigation (SI) Subsurface Investigation (SI) PlanningPlanning
Provide Sufficient Boreholes to get Subsoil Profile
Collect Rock Samples for Strength Tests (eg UCT)
In-Situ Tests to get consistency of ground (eg SPT)
Classification Tests to Determine Soil Type Profile
Soil Strength Tests (eg CIU)
Chemical Tests (eg Chlorine, Sulphate, etc)
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Typical CrossTypical Cross--Section at Hill Site Section at Hill Site
Ground Level
Bedrock LevelVery Hard Material Level
Hard Material Level
Groundwater Level
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EXISTING GROUND
LEVEL
Water Table
C’2, ø’2
Clayey Layer
C’3, ø’3
C’1, ø’1
BH
BH
BH Perched WT
Seepage
CROSS SECTION
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Placing Boreholes in Limestone Areas
Stage 1 : Preliminary S.I.- Carry out geophysical survey (for large areas)
Stage 2: Detailed S.I. - Boreholes at Critical Areas Interpreted from Stage 1
Stage 3: During Construction- Rock Probing at Selected Columns to supplement Stage 2
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Pile Design
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PILE DESIGNPILE DESIGN
Allowable Pile Capacity is the minimum of :
1) Allowable Structural Capacity
2) Allowable Geotechnical Capacitya. Negative Skin Frictionb. Settlement Control
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PILE DESIGNPILE DESIGNStructural consideration
• Not overstressed during handling, installation & in service for pile body, pile head, joint & shoe.
• Dimension & alignment tolerances (common defects?)
• Compute the allowable load in soft soil (<10kPa) over hard stratum
• Durability assessment
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Pile Capacity Design Pile Capacity Design Structural CapacityStructural Capacity
Concrete Pile
Steel Pile
Prestressed Concrete Pile
QQallall = 0.25 x = 0.25 x ffcucu x Ax Acc
QQallall = 0.3 x = 0.3 x ffyy x Ax Ass
QQallall = 0.25 (= 0.25 (ffcucu –– PrestressPrestress after loss) x Aafter loss) x Acc
Qall = Allowable pile
capacity
fcu = characteristic strength
of concrete
fs = yield strength of steel
Ac = cross sectional area of
concrete
As = cross sectional area of
steel
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SPT Blow Count per 300mm Penetration
Collection of SI DataCollection of SI Data
Pile Capacity Design Pile Capacity Design Geotechnical CapacityGeotechnical Capacity
4000 50 100 150 200 250 300 35026
24
22
20
18
16
14
12
10
8
6
4
2
0
12
10
8
6
4
2
0
0 50 100 150 200 250 300 350 400D
epth
(m)
Upper Bound
Lower Bound
Design Line (Moderately
Conservative)
Depth Vs SPT-N Blow Count
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0 50 100 150 200 250 300 350 400
26
24
22
20
18
16
14
12
10
8
6
4
2
0
12
10
8
6
4
2
0
0 50 100 150 200 250 300 350 400
0 50 100 150 200 250 300 350 400
26
24
22
20
18
16
14
12
10
8
6
4
2
0
12
10
8
6
4
2
0
0 50 100 150 200 250 300 350 400
Upper Bound
Lower Bound
Design Line Upper Bound
Lower Bound Design Line
Dep
th (m
)
Depth Vs SPT-N Blow Count
SPT Blow Count per 300mm Penetration
Dep
th (m
)
Depth Vs SPT-N Blow Count
SPT Blow Count per 300mm Penetration
Collection of SI DataCollection of SI Data
Pile Capacity Design Pile Capacity Design Geotechnical CapacityGeotechnical Capacity
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•• Piles installed in a group may fail:Piles installed in a group may fail:• Individually
• As a block
Pile Capacity Design Pile Capacity Design Geotechnical CapacityGeotechnical Capacity
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• Piles fail individually• When installed at large spacing
Pile Capacity Design Pile Capacity Design Geotechnical CapacityGeotechnical Capacity
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• Piles fail as a block• When installed at close spacing
Pile Capacity Design Pile Capacity Design Geotechnical CapacityGeotechnical Capacity
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Pile Capacity Design Pile Capacity Design Single Pile CapacitySingle Pile Capacity
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Pile Capacity DesignPile Capacity DesignFactor of Safety (FOS)Factor of Safety (FOS)
Factor of Safety (FOS) is required for
Natural variations in soil strength & variations in soil strength & compressibilitycompressibility
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Pile Capacity DesignPile Capacity DesignFactor of Safety (FOS)Factor of Safety (FOS)
Factor of Safety is (FOS) required for
Different degree of Different degree of mobilisationmobilisation for shaft for shaft & for tip& for tip Lo
adSettlement≈ 5mm
qsmob
qbmob
Load
Settlement≈ 5mm
qsmob
qbmob
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Pile Capacity Design Pile Capacity Design Factor of Safety (FOS)Factor of Safety (FOS)
PartialPartial factors of safety for shaft & base factors of safety for shaft & base capacities respectivelycapacities respectively
For shaft, use 1.5 (typical)For shaft, use 1.5 (typical)
For base, use 3.0 (typical)For base, use 3.0 (typical)ΣQsu + Qbu
1.5 3.0Qall =
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Pile Capacity DesignPile Capacity DesignFactor of Safety (FOS)Factor of Safety (FOS)
GlobalGlobal factor of safety for total ultimate factor of safety for total ultimate capacitycapacity
Use 2.0 (typical)Use 2.0 (typical)
ΣQsu + Qbu
2.0Qall =
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Pile Capacity Design Pile Capacity Design Factor of Safety (FOS)Factor of Safety (FOS)
Calculate using Calculate using BOTHBOTH approaches approaches (Partial & Global)(Partial & Global)
Choose the Choose the lower lower of the of the QQallall valuesvalues
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QQuu = Q= Qss + + QQbb
Overburden Soil Layer
Qs = skin friction
Qb = end bearing
Qu = ultimate bearing capacity
Pile Capacity Design Pile Capacity Design Single Pile CapacitySingle Pile Capacity
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Qu = α.sus.As + sub.Nc.Ab
Qsu Qbu
Qu = Ultimate bearing capacity of the pile a = adhesion factor (see next slide)sus = average undrained shear strength for shaftAs = surface area of shaft sub = undrained shear strength at pile baseNc = bearing capacity factor (taken as 9.0) Ab = cross sectional area of pile base
Pile Capacity Design Pile Capacity Design Single Pile Capacity : In Cohesive SoilSingle Pile Capacity : In Cohesive Soil
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Pile Capacity DesignPile Capacity DesignSingle Pile Capacity:Single Pile Capacity: In Cohesive SoilIn Cohesive SoilAdhesion factor (Adhesion factor (αα) ) –– Shear strength (SShear strength (Suu) )
(McClelland, 1974)(McClelland, 1974)
Adhesion Factor
Su (kN/m2)25 75 100 125 150 17550
0
0.6
0.2
0.4
0.8
1.0
Cα/Su
Preferred Design Line
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91.50.330510040
690.32307530
51.150.331555020
470.4117.537.515
41.60.52802510
29.750.742.512.55
12.5112.52.51
51500
fsu=α.su(kPa)α
su = (0.1+0.15N)*50
(kPa)
fsu=2.5N(kPa)SPT N
FukuokaMeyerhof
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Correlation Between SPT N and Correlation Between SPT N and ffsusufsu vs SPT N
0
10
20
30
40
50
60
70
80
90
100
110
0 5 10 15 20 25 30 35 40 45
SPT N
fsu
(kP
a)
Meyerhof Fukuoka
Pile Capacity DesignPile Capacity DesignSingle Pile Capacity:Single Pile Capacity: In Cohesive SoilIn Cohesive Soil
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Values of undrained shear strength, su can be obtained from the following:
Unconfined compressive test
Field vane shear test
Deduce based on Fukuoka’s Plot (minimum su )
Deduce from SPT-N values based on Meyerhof
Pile Capacity DesignPile Capacity DesignSingle Pile Capacity:Single Pile Capacity: In Cohesive SoilIn Cohesive Soil
NOTE: Use only direct field data for shaft friction prediction instead of Meyerhof
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Modified Meyerhof (1976):
Ult. Shaft friction = Qsu ≅ 2.5N (kPa)
Ult. Toe capacity = Qbu ≅ 250N (kPa)
or 9 su (kPa)
(Beware of base cleaning for bored piles –
ignore base capacity if doubtful)
Pile Capacity DesignPile Capacity DesignSingle Pile Capacity:Single Pile Capacity: In Cohesive SoilIn Cohesive Soil
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Modified Modified MeyerhofMeyerhof (1976):(1976):
UltUlt. Shaft Friction = . Shaft Friction = QQsusu ≅≅ 2.0N (2.0N (kPakPa))
UltUlt. Toe Capacity= . Toe Capacity= QQbubu ≅≅ 250N 250N –– 400N 400N
((kPakPa))
Pile Capacity DesignPile Capacity DesignSingle Pile Capacity:Single Pile Capacity: In In CohesionlessCohesionless SoilSoil
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0 200 400 600
20
16
12
8
4
0
Dep
th (m
)
0 100 200 300 400 500Load (kN)
20
16
12
8
4
0
Pile Capacity DesignPile Capacity Design
ΣQsu
Qbu
ΣQsu + Qbu
0 200 400 600
20
16
12
8
4
0
Dep
th (m
)
0 100 200 300 400 500Load (kN)
20
16
12
8
4
0
0 200 400 600
20
16
12
8
4
0
Dep
th (m
)
0 100 200 300 400 500Load (kN)
20
16
12
8
4
0
0 200 400 600
20
16
12
8
4
0
Dep
th (m
)
0 100 200 300 400 500Load (kN)
20
16
12
8
4
0
ΣQsu + Qbu2.0
0 200 400 600
20
16
12
8
4
0
Dep
th (m
)
0 100 200 300 400 500Load (kN)
20
16
12
8
4
0
ΣQsu + Qbu1.5 3.0
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Pile Capacity Design Pile Capacity Design Block CapacityBlock Capacity
![Page 50: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/50.jpg)
Qu = 2D(B+L) s + 1.3(sb.Nc.B.L)Where Qu= ultimate bearing capacity of pile groupD = depth of pile below pile cap levelB = width of pile groupL = length of pile groups = average cohesion of clay around groupsb = cohesion of clay beneath groupNc= bearing capacity factor = 9.0 (Refer to Text by Tomlinson, 1995)
Pile Capacity DesignPile Capacity DesignBlock Capacity:In Cohesive SoilBlock Capacity:In Cohesive Soil
![Page 51: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/51.jpg)
No risk of group failure
if FOS of individual pile is adequate
Pile Capacity DesignPile Capacity DesignBlock Capacity:Block Capacity: In In CohesionlessCohesionless SoilSoil
![Page 52: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/52.jpg)
No risk of block failure
if the piles are properly seated in the rock
formation
Pile Capacity DesignPile Capacity DesignBlock Capacity:Block Capacity: On RockOn Rock
![Page 53: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/53.jpg)
Pile Capacity Design Pile Capacity Design Negative Skin Friction (NSF)Negative Skin Friction (NSF)
![Page 54: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/54.jpg)
Compressible soil layer consolidates with time due to:
Surcharge of fillLowering of groundwater table
Pile Capacity DesignPile Capacity DesignNegative Skin FrictionNegative Skin Friction
![Page 55: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/55.jpg)
Clay
FillOGL
1 2 30
Hf
ρsMonth
Pile Capacity DesignPile Capacity DesignNegative Skin FrictionNegative Skin Friction
![Page 56: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/56.jpg)
Pile to length (floating pile)Pile settles with consolidating soil NO NSF
Pile Capacity DesignPile Capacity DesignNegative Skin FrictionNegative Skin Friction
![Page 57: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/57.jpg)
Pile to set at hard stratum (end-bearing pile)
Consolidation causes downdrag forces on piles as soil settles more than the pile
Pile Capacity DesignPile Capacity DesignNegative Skin FrictionNegative Skin Friction
![Page 58: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/58.jpg)
WARNING:No free fill by the contractor to avoid NSF
Pile Capacity DesignPile Capacity DesignNegative Skin FrictionNegative Skin Friction
![Page 59: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/59.jpg)
Effect of NSF Effect of NSF ……
Reduction of Pile Carrying Capacity
![Page 60: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/60.jpg)
Effect of NSF Effect of NSF ……
![Page 61: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/61.jpg)
NSF Preventive MeasuresNSF Preventive Measures
Avoid Filling
Carry Out Surcharging
Sleeve the Pile Shaft
Slip Coating
Reserve Structural Capacity for NSF
Allow for Larger Settlements
![Page 62: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/62.jpg)
Clay
Sand
OGL
Qba
Qneg
SandFL
Clay
Sand
OGL
Qba
Qsu
Qall = (Qsu/1.5 + Qbu/3.0) - Qneg
Qsu
Qall = (Qsu/1.5 + Qbu/3.0)
Pile Capacity DesignPile Capacity DesignNegative Skin FrictionNegative Skin Friction
![Page 63: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/63.jpg)
70 60 50 40 30 20 10 0
Settlement (mm)100 0 -100 -200-300-400-500-600 -700 -800 -900-1000
Axial Compression Force (kN)
Settlement Curves &Axial Compression Force
14 May 9815 May 9818 May 9821 May 9804 Jun 9809 Jun 9819 Jun 9802 Jul 9813 Jul 98
0 10 20 30 40 50SPT-N (Blows/300mm)
BoreholeBH-1BH-2
Datum = 36.300m
40
35
30
25
20
15
10
5
0D
epth
(m, b
gl)
Increased Pile Axial LoadIncreased Pile Axial Load
Check: maximum axial load < structural pile Check: maximum axial load < structural pile capacitycapacity
Pile Capacity Design Pile Capacity Design Negative Skin FrictionNegative Skin Friction
Maximum axial load
![Page 64: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/64.jpg)
Allowable working loadQult
FOS
Pile Capacity DesignPile Capacity DesignFactor of Safety (FOS)Factor of Safety (FOS)
Allowable working load
Qult
FOS(Qneg + etc)
Without Negative Skin Friction:
With Negative Skin Friction:
![Page 65: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/65.jpg)
Pile Capacity DesignPile Capacity DesignStatic Pile Load Test (Piles with NSF)Static Pile Load Test (Piles with NSF)
• Specified Working Load (SWL) = Specified foundationload at pile head
• Design Verification Load (DVL) = SWL + 2 Qneg
• Proof Load: will not normally exceed
DVL + SWL
![Page 66: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/66.jpg)
Pile Settlement DesignPile Settlement Design
![Page 67: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/67.jpg)
Pile Settlement DesignPile Settlement DesignIn Cohesive SoilIn Cohesive Soil
Design for Design for total settlement & settlement & differential settlement for design settlement for design tolerancetoleranceIn certain casesIn certain cases, total settlement not an settlement not an issueissueDifferential settlement can cause settlement can cause damage to structuresdamage to structures
![Page 68: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/68.jpg)
Pile Group Settlement in Clay
=
Immediate / Elastic Settlement + Consolidation
Settlement
Pile Settlement DesignPile Settlement DesignIn Cohesive SoilIn Cohesive Soil
![Page 69: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/69.jpg)
Where
pi = average immediate settlement
qn= pressure at base of equivalent raft
B = width of the equivalent raft
Eu= deformation modulus
μ1, μ0= influence factors for pile group width, B at depth D
below ground surface
by by JanbuJanbu, , BjerrumBjerrum and and KjaernsliKjaernsli (1956)(1956)
IMMEDIATE SETTLEMENTIMMEDIATE SETTLEMENT
Pile Settlement DesignPile Settlement DesignIn Cohesive SoilIn Cohesive Soil
u
ni E
Bqp 01μμ=
![Page 70: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/70.jpg)
μ1
μ0
Influence factors (after Janbu, Bjerrum and Kjaernsli, 1956)
IMMEDIATE SETTLEMENTIMMEDIATE SETTLEMENT
Pile Settlement DesignPile Settlement DesignIn Cohesive SoilIn Cohesive Soil
![Page 71: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/71.jpg)
As per footing (references given later)
CONSOLIDATION SETTLEMENTCONSOLIDATION SETTLEMENT
Pile Settlement DesignPile Settlement DesignIn Cohesive SoilIn Cohesive Soil
![Page 72: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/72.jpg)
No risk of excessive settlement
Pile Settlement DesignPile Settlement DesignOn RockOn Rock
![Page 73: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/73.jpg)
Pile Installation Methods
![Page 74: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/74.jpg)
PILE INSTALLATION PILE INSTALLATION METHODSMETHODS
•Diesel / Hydraulic / Drop HammerDriving
•Jacked-In
•Prebore Then Drive
•Prebore Then Jacked In
•Cast-In-Situ Pile
![Page 75: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/75.jpg)
Diesel Drop Hammer Driving
Diesel Drop Hammer Diesel Drop Hammer DrivingDriving
Hydraulic Hammer Driving
Hydraulic Hammer Hydraulic Hammer DrivingDriving
![Page 76: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/76.jpg)
JackedJacked--In In PilingPiling
![Page 77: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/77.jpg)
JackedJacked--In Piling (ContIn Piling (Cont’’d)d)
![Page 78: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/78.jpg)
Cast-In-Situ Piles
(Micropiles)
CastCast--InIn--Situ Situ Piles Piles
((MicropilesMicropiles))
![Page 79: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/79.jpg)
Types of Piles
![Page 80: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/80.jpg)
TYPES OF PILESTYPES OF PILES
•Treated Timber Piles
•Bakau Piles
•R.C. Square Piles
•Pre-Stressed Concrete SpunPiles
•Steel Piles
•Boredpiles
•Micropiles
•Caisson Piles
![Page 81: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/81.jpg)
R.C. Square PilesR.C. Square Piles
Size : 150mm to 400mmLengths : 3m, 6m, 9m and 12mStructural Capacity : 25Ton to 185TonMaterial : Grade 40MPa ConcreteJoints: WeldedInstallation Method :
–Drop Hammer–Jack-In
![Page 82: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/82.jpg)
RC RC Square Square PilesPiles
![Page 83: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/83.jpg)
Pile MarkingPile Marking
![Page 84: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/84.jpg)
Pile LiftingPile Lifting
![Page 85: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/85.jpg)
Pile Fitting to Piling MachinePile Fitting to Piling Machine
![Page 86: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/86.jpg)
Pile Pile PositioningPositioning
![Page 87: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/87.jpg)
Pile JoiningPile Joining
![Page 88: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/88.jpg)
Considerations in Using RC Considerations in Using RC Square Piles Square Piles ……
•Pile Quality
•Pile Handling Stresses
•Driving Stresses
•Tensile Stresses
•Lateral Loads
•Jointing
![Page 89: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/89.jpg)
PrePre--stressed Concrete Spun stressed Concrete Spun PilesPiles
Size : 250mm to 1000mmLengths : 6m, 9m and 12m (Typical)Structural Capacity : 45Ton to 520TonMaterial : Grade 60MPa & 80MPa ConcreteJoints: WeldedInstallation Method :
–Drop Hammer–Jack-In
![Page 90: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/90.jpg)
Spun PilesSpun Piles
![Page 91: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/91.jpg)
Spun Piles Spun Piles vsvs RC Square Piles RC Square Piles Spun Piles have …
•Better Bending Resistance
•Higher Axial Capacity
•Better Manufacturing Quality
•Able to Sustain Higher Driving Stresses
•Higher Tensile Capacity
•Easier to Check Integrity of Pile
•Similar cost as RC Square Piles
![Page 92: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/92.jpg)
Steel H PilesSteel H Piles
Size : 200mm to 400mLengths : 6m and 12mStructural Capacity : 40Ton to 1,000TonMaterial : 250N/mm2 to 410N/mm2 SteelJoints: WeldedInstallation Method :
–Hydraulic Hammer–Jack-In
![Page 93: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/93.jpg)
Steel H Steel H PilesPiles
![Page 94: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/94.jpg)
Steel H Piles (ContSteel H Piles (Cont’’d)d)
![Page 95: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/95.jpg)
Steel H Piles NotesSteel H Piles Notes……
•Corrosion Rate
•Fatigue
•OverDriving
![Page 96: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/96.jpg)
OverDrivingOverDrivingof Steel Pilesof Steel Piles
![Page 97: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/97.jpg)
Large Diameter CastLarge Diameter Cast--InIn--Situ Situ Piles (Bored Piles)Piles (Bored Piles)
Size : 450mm to 2mLengths : VariesStructural Capacity : 80Ton to 2,300TonsConcrete Grade : 20MPa to 30MPa (Tremie)Joints : NoneInstallation Method : Drill then Cast-In-Situ
![Page 98: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/98.jpg)
Overburden Soil Layer
Bedrock
Drilling BorepileBorepile ConstructionConstruction
![Page 99: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/99.jpg)
Overburden Soil Layer
Bedrock
Advance Drilling BorepileBorepile ConstructionConstruction
![Page 100: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/100.jpg)
Overburden Soil Layer
Bedrock
Drilling & Advance Casing
BorepileBorepile ConstructionConstruction
![Page 101: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/101.jpg)
Overburden Soil Layer
Bedrock
Drill to Bedrock BorepileBorepile ConstructionConstruction
![Page 102: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/102.jpg)
BorepileBorepile ConstructionConstruction
Overburden Soil Layer
Bedrock
Lower Reinforcement Cage
![Page 103: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/103.jpg)
Overburden Soil Layer
Bedrock
BorepileBorepile ConstructionConstructionLower TremieChute
![Page 104: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/104.jpg)
Overburden Soil Layer
Bedrock
Pour TremieConcrete
BorepileBorepile ConstructionConstruction
![Page 105: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/105.jpg)
BorepileBorepile ConstructionConstruction
Overburden Soil Layer
Bedrock
Completed Borepile
![Page 106: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/106.jpg)
BORED PILING MACHINEBORED PILING MACHINEBored Pile Construction
BG22
![Page 107: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/107.jpg)
Cleaning Bucket
Rock Reamer Rock Auger
![Page 108: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/108.jpg)
Harden Steel
Rock Chisel
![Page 109: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/109.jpg)
DRILLING EQUIPMENTDRILLING EQUIPMENTBored Pile Construction
Soil augerCoring bucketCleaning
bucket
![Page 110: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/110.jpg)
BENTONITE PLANTBENTONITE PLANTBored Pile Construction
MixerWater Tank Slurry
Tank
DesandingMachine
![Page 111: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/111.jpg)
DrillingDrilling
![Page 112: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/112.jpg)
Lower Lower ReinforcementReinforcement
![Page 113: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/113.jpg)
Place Place TremieTremie
ConcreteConcrete
![Page 114: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/114.jpg)
Completed Completed BoredpileBoredpile
![Page 115: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/115.jpg)
BorepileBorepile CosiderationsCosiderations……
•Borepile Base Difficult to Clean
•Bulging / Necking
•Collapse of Sidewall
•Dispute on Level of Weathered Rock
![Page 116: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/116.jpg)
MicropilesMicropiles
Size : 100mm to 350mm DiameterLengths : VariesStructural Capacity : 20Ton to 250TonMaterial : Grade 25MPa to 35MPa Grout
N80 API Pipe as ReinforcementJoints: NoneInstallation Method :
–Drill then Cast-In-Situ–Percussion Then Cast-In-Situ
![Page 117: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/117.jpg)
CastCast--InIn--Situ Situ PilesPiles
((MicropilesMicropiles))
![Page 118: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/118.jpg)
TYPES OF PILE SHOESTYPES OF PILE SHOES
•Flat Ended Shoe
•Oslo Point
•Cast-Iron Pointed Tip
•Cross Fin Shoe
•H-Section
![Page 119: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/119.jpg)
Cross Fin ShoeCross Fin Shoe
![Page 120: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/120.jpg)
Oslo Point ShoeOslo Point Shoe
![Page 121: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/121.jpg)
Cast Iron Tip ShoeCast Iron Tip Shoe
![Page 122: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/122.jpg)
HH--Section ShoeSection Shoe
![Page 123: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/123.jpg)
Piling Supervision
![Page 124: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/124.jpg)
Uniform Building By Uniform Building By Law (UBBL)1984Law (UBBL)1984
![Page 125: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/125.jpg)
PILING SUPERVISIONPILING SUPERVISION•Ensure That Piles Are Stacked Properly
•Ensure that Piles are Vertical During Driving
•Keep Proper Piling Records
•Ensure Correct Pile Types and Sizes are Used
•Ensure that Pile Joints are Properly Welded withNO GAPS
•Ensure Use of Correct Hammer Weights and DropHeights
![Page 126: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/126.jpg)
PILING SUPERVISION PILING SUPERVISION (Cont(Cont’’d)d)
•Ensure that Proper Types of Pile Shoes are Used.
•Check Pile Quality
•Ensure that the Piles are Driven to the RequiredLengths
•Monitor Pile Driving
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FAILURE OF PILING FAILURE OF PILING SUPERVISIONSUPERVISION
Failing to Provide Proper Supervision
WILL Result in
Higher Instances of Pile Damage
& Wastage
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Pile Damage
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Driven concrete piles are vulnerable Driven concrete piles are vulnerable to damages by overdriving. to damages by overdriving.
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Damage to Timber PileDamage to Timber Pile
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Weak Weak Timber Timber JointJoint
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Damage To RC Pile ToeDamage To RC Pile Toe
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Damage to Damage to RC Pile RC Pile HeadHead
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Damage to Damage to RC PilesRC Piles
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Damage to RC Piles Damage to RC Piles –– contcont’’d d
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Tilted RC Tilted RC PilesPiles
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Damage to Steel PilesDamage to Steel Piles
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Damaged Steel Pipe PilesDamaged Steel Pipe Piles
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Detection of Pile Damage Detection of Pile Damage Through Piling RecordsThrough Piling Records
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Piling Problems
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Piling Problems – Soft Ground
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Ground heave due to pressure relief at base &
surcharge near excavation
Pile tilts & moves/walks
Piling Problems – Soft Ground
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Piling Problems – Soft Ground
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Piling in Kuala Lumpur LimestonePiling in Kuala Lumpur Limestone
Important Points to Note:• Highly Irregular Bedrock Profile
• Presence of Cavities & Solution Channels
• Very Soft Soil Immediately Above Limestone Bedrock
Results in …• High Rates of Pile Damage
• High Bending Stresses
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Piling Problems in Typical Limestone Piling Problems in Typical Limestone BedrockBedrock
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Piling Problems Piling Problems –– Undetected Undetected ProblemsProblems
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Piling Problems Piling Problems – Coastal Alluvium
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Piling Problems Piling Problems –– Defective PilesDefective Piles
Seriously damaged pile due to severe driving stress in soft ground (tension)
Defect due to poor workmanship of pile casting
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Defective pile shoe
Problems of defective pile head & overdriving!
Piling Problems Piling Problems –– Defective PilesDefective Piles
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Cracks& fractured
Non-chamfered corners
Piling Problems Piling Problems –– Defective PilesDefective Piles
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Pile head defect due to hard driving or and poor
workmanship
Piling Problems Piling Problems –– Defective PilesDefective Piles
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Piling Problem - Micropiles
Sinkholes caused by installation method-
dewatering?
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Piling in Fill GroundPiling in Fill GroundImportant Points to Note:
•High Consolidation Settlements If Original Ground is Soft•Uneven Settlement Due to Uneven Fill Thickness•Collapse Settlement of Fill Layer If Not Compacted
Properly
Results in …•Negative Skin Friction (NSF) & Crushing of Pile Due
to High Compressive Stresses•Uneven Settlements
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Typical Design and Typical Design and Construction Issues #1Construction Issues #1
Pile Toe Slippage Due to Steep Incline Bedrock
Use Oslo Point Shoe To Minimize Pile Damage
Issue #1
Solution #1
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Pile Breakage on Inclined Pile Breakage on Inclined Rock SurfaceRock Surface
No Proper Pile Shoe
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Extension PilePileJoint
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First Contact B/W Toe and Inclined Rock
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Toe “Kicked Off”on Driving
Pile Body Bends
Pile Joint Breaks
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Pile Breakage on Inclined Pile Breakage on Inclined Rock SurfaceRock Surface
Continue “Sliding” of
Toe
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Use Oslo Point Shoe to Minimize Use Oslo Point Shoe to Minimize DamageDamage
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Design and Construction Design and Construction Issues #2Issues #2
Presence of Cavity
Detect Cavities through Cavity Probing then perform Compaction Grouting
Issue #2
Solution #2
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Presence of CavityPresence of Cavity
Pile Sitting on Limestone with Cavity
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Application of Building Load
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Application of Building Load
Roof of Cavity starts to Crack …
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Collapse of Cavity Roof
Pile Plunges !
Building Collapse
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Design and Construction Design and Construction Issues #3Issues #3
Differential Settlement
Carry out analyses to check the settlement compatibility if different piling system is adopted
Issue #3
Solution #3
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Piling in Progress
Differential Settlement of Foundation
Original House on Piles
Hard LayerSPT>50
Cracks!!
No pile
SettlementSoft
Layer
Link House Construction
Renovation: Construct
Extensions
Piles transfer Load to
Hard Layer
No Settlement
SAFETY of Original Building
Not Compromised
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Piling in Progress
Eliminate Differential SettlementEliminate Differential Settlement
Hard LayerSPT>50
Soft Layer
Construct Extension with Suitable Piles
All Load transferred to Hard Layer – No Cracks!
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Piling in Progress
Problem of Short PilesProblem of Short Piles
Hard LayerSPT>50
Soft Layer
Load from Original House transferred to Hard Layer
Cracks!!
Soft!
Load transferred to
Soft Layer, Extension still Settles
Construct Extensions with Short
Piles
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Cracks at ExtensionCracks at Extension
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Typical Design and Typical Design and Construction Issues #4Construction Issues #4
Costly conventional piling design – piled to set to deep layer in soft ground
-Strip footings / Raft
-Floating Piles
Issue #4
Solution #4
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“Conventional” Foundation for Low Rise Buildings
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Foundation for Low Rise Buildings (Soil Settlement)
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Exposed Pile
Settlement
Settling Platform Detached from Building
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Conceptual Design of Conceptual Design of FOUNDATION SYSTEMFOUNDATION SYSTEM
1. Low Rise Buildings :-(Double-Storey Houses)= Strip Footings or Raft or Combination.
2. Medium Rise Buildings :-= Floating Piles System.
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Low Rise Buildings on Piled Raft/Strips
Strip / Raft System
Stiff Stratum
Hard Layer
Fill
25-30m
Soft Clay
![Page 184: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/184.jpg)
Comparison
Strip System
Stiff Stratum
Hard Layer
Fill
25-30m
Soft Clay
Building on Piles Building on Piled Strips
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Comparison (after settlement)Building on Piles Building on Piled Strips
Strip System
Stiff Stratum
Hard Layer
Fill
25-30m
Soft Clay
![Page 186: Pile Foundation Design & Construction](https://reader036.fdocuments.us/reader036/viewer/2022081415/553cdde54a7959d9368b4a73/html5/thumbnails/186.jpg)
Advantages of Advantages of Floating Piles SystemFloating Piles System
1. Cost Effective.
2. No Downdrag problems on the Piles.
3. Insignificant Differential Settlement between Buildings and Platform.
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Bandar Botanic
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Bandar Botanic at Night
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Soft Ground Engineering
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Myths in Piling
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MYTHS IN PILING #1MYTHS IN PILING #1
Dynamic Formulae such as Hiley’s Formula Tells us the Capacity of the Pile
Pile Capacity can only be verified by using:
(i) Maintained (Static) Load Tests
(ii)Pile Dynamic Analyser (PDA) Tests
Myth:
Truth:
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MYTHS IN PILING #2MYTHS IN PILING #2
Pile Achieves Capacity When It is Set.
Myth:
Truth:
Pile May Only “Set” on Intermediate Hard Layer BUT May Still Not Achieve Required Capacity within Allowable Settlement.
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CASE HISTORIESCASE HISTORIESCase 1: Structural distortion & distresses
Case 2: Distresses at houses
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CASE HISTORY 1CASE HISTORY 1
Max. 20m Bouldery Fill on Undulating TerrainPlatform SettlementShort Piling ProblemsDowndrag on Piles
Distortion & Distresses on 40 Single/ 70 Double Storey Houses
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Distresses on Structures
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Void
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0 40000 80000 120000 160000 200000Coordinate-X (mm)
20
30
40
50
60
70R
educ
ed L
evel
(m)
Profile with SPT 'N'>50
Filled groundOriginal GroundHard StratumBoreholePile ToePile Toe of AdditionalPiles
OriginalGround Profile
BuildingPlatformOffset 13.1m
Offset 13.1m
N=25
N=40
N=34
Profile with SPT 'N'≅30
Offset 13.1m
N=29
N=30
N=5
Offset 36.2m
???
?? ?
??
?
?
?
?
Piling Contractor A
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0 40000 80000 120000 160000 200000Coordinate-X (mm)
30
40
50
60
70
80R
educ
ed L
evel
(m)
Filled groundOriginal GroundHard StratumBoreholePile ToePile Toe of Additional PilesProfile with SPT 'N'>50
Building Platform
Original Ground ProfileN=30
N=34
N=28N=41
N=5
N=29
Profile with SPT 'N'≅30
Offset 9.1mOffset 9.1m
?
??
? ?
PilingContractor A Piling Contractor B
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Prevention MeasuresPrevention Measures
Design:– Consider downdrag in foundation design– Alternative strip systemConstruction: – Proper QA/QC – Supervision
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CASE HISTORY 2CASE HISTORY 2
Filled ground: platform settlementDesign problem: non-suspended floor with semi-suspended detailingBad earthwork & layout designShort piling problem
Distresses on 12 Double Storey Houses & 42 Townhouses
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Diagonal cracks due to differential
settlement between columns
Larger column settlement
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Sagging Ground
Floor Slab
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SAGGING PROFILE OF NON-SUSPENDED GROUND FLOOR SLAB
NON-SUSPENDED GROUND FLOOR SLAB BEFORE SETTLEMENT
BUILDING PLATFORM PROFILE AFTER SETTLEMENT
PILE PILECAP
Ve > Vc Vc < VeVcρs
ρs ACTUAL FILLED PLATFORM SETTLEMENT
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Distorted Car Porch Roof
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BLOCK 2
BLOCK 1
Silt trap
Temporary earth drain
Poor Earthwork Layout
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Prevention MeasuresPrevention Measures
Planning: – Proper building layout planning to suit terrain
(eg. uniform fill thickness)– Sufficient SI
Design: – Consider filled platform settlement– Earthwork layout
Construction: – Supervision on earthwork & piling
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SUMMARYSUMMARY
Importance of Preliminary Study
Understanding the Site Geology
Carry out Proper Subsurface Investigation that Suits the Terrain & Subsoil
Selection of Suitable Pile
Pile Design Concepts
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SUMMARYSUMMARY
Importance of Piling Supervision
Typical Piling Problems Encountered
Present Some Case Histories
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FERRARI ‘S PITSTOP WAS COMPLETED BY 15 MECHANICS (FUEL AND TYRES) IN 6.0 SECONDS FLAT.
54 PEOPLE TOOK PART IN THIS CONCERTED ACROBATIC JUMP.
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