extended model of cavity expansion theory for evaluating ... · evaluating skin friction of tapered...
TRANSCRIPT
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Extended Model of Cavity Expansion Theory for Evaluating Skin Friction of Tapered Piles in Sands
Suman Manandhar and Daisuke Suetsugu Institute of Lowland and Marine Research (ILMR), Saga University
Noriyuki Yasufuku Department of Civil Engineering, Kyushu University
The 7th Geo3 T2, NCDOT, Cary, USA
April 4-5, 2013
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Outline of the Presentation
2
Phases
Introduction
Mobilized Mechanism
Extended Model for Evaluating Skin Friction Results of the Model using Load Transfer Method
Parametric Study and Validity of the Model
Conclusions
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Introduction
• Skin friction and radial stress are highly influenced by tapered piles with compared to conventional piles.
• A small increase in the degree of tapering can achieve higher skin
friction. • The mobilized mechanism demonstrates a good pressure effect
when penetrated downward in a frictional mode for sands. • The tapering and wedging effects are responsible for increasing the
normalised skin friction and normalized lateral stresses.
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• May be due to a lack of awareness of their basic existence together with a lack of modern and reliable analytical methods, very few researches have been carried out.
• A number of experts in geotech proposed theoretical methods
using a cavity expansion theory.
• Vesic` (1972): Used to solve an infinite soil body by keeping volume change at the same soil at same density.
4
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• Hughes et al. (1977): Assumed the small elastic deformation in the plastic zone when a limiting value of stress ratio reached after elastic deformation.
• Carter et al. (1986): Approximates a steady state deformation
mode at very large deformations for small deformation problems. • Yu and Houlsby (1991): The most closed form and complete
solution for large straining condition for cylindrical cavity expansion in an ideal elastic-plastic model.
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K-7 (0.6)
Materials used
6
1 10 100 1000 100000
20
40
60
80
100
Diameter (µm)
% F
iner
TO K-7
Soils
Toyoura (TO) sand
K-7 sand
Relative Density (ID) TO(0.8)
Gradation curve of sands
Mobilized Mechanism
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Pile geometry
7
Types of Model Piles
Naming L mm
Dt mm
d mm
α ˚
FRP reinforcement
direction
Smallest model steel
piles
S′ 345 13 13 0.00 T1′ 45 20 13 0.70 T2′ 345 28 13 1.40
Smaller model steel
piles
S 500 25 25 0.00 na T-1 500 35 25 0.70 na T-2 500 45 25 1.40 na
Prototype FRP piles
FC 1524 168.3 168.3 0.00 na T-3 1524 170.0 198.0 0.53 0˚ T-4 1524 159.0 197.0 0.71 0˚ T-5 1524 155.0 215.0 1.13 0˚
L: length of pile; Dt: diameter at the pile head; d: pile tip diameter; FRP: fiber-reinforced polymer; α: angle of tapering; na: not applicable
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Steel Model Piles
8
500m
m
25mm 35mm 45mm
α = 1.4˚
α = 0.7˚
S T1 T2
Load cell
Cord
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Outline of Pile Loading
9
Model test filled with colored TO (ID=0.8) sand at equal interval and penetrated fully up to 10 cm; then put in water bath to prevent from failure of model ground when chamber was split up.
Trimmed soil carefully to observe mobilized mechanism.
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10
S′ (α =0 ˚) T1′ (α =0.7 ˚) T2′ (α =1.4 ˚)
a
a
a
b b
b
c c c
a = effective radius of influence, increased with tapering angle; b = convex heave due to effect of pile, narrowed with tapering angle; and c = failure tip influenced zone, increased with tapering angle
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Visual Interpretation
11
The most tapered pile showed the highest radius of influence that gives a strong evidence of increases in skin friction and lateral stress with minimizing the failure zone effectively.
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Merits of Laboratory scale Pile Loading Tests
12
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Skin friction and unit skin friction
2d)+(D=Dav
L)+(L πD=A avs ∆
s
S
AP
=sfUnit skin friction,
As : surface area Dav: average diameter of pile head (Dt) and tip (d) L: Effective length of pile ΔL: Incremental depth of pile penetration
Dt
Dav d
L
𝐏𝐏𝐒𝐒 = 𝐏𝐏𝐓𝐓 − 𝐏𝐏𝐁𝐁
13
PS : Total skin friction PT : Total load bearing PB : Total end bearing
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Skin friction increases with increasing tapering angle. 14
0.0 0.1 0.2 0.3 0.4 0.5 0.60
2
4
6
8
10
12
14
16(P
S)Ta
pere
d/(P S)
Stra
ight K-7(α=00)
K-7 (α=0.70) K-7 (α=1.40)
K-7 sandID= 60 %
TO sandID= 80 %
S/D
TO (α=00) TO (α=0.70) TO (α=1.40)
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Unit skin friction also maintains the same trend. 15
0.0 0.1 0.2 0.3 0.4 0.5 0.60
2
4
6
8
10
12
S/D
(fs)
Tape
red/
(fs)
Str
aigh
t
K-7 (α=00) K-7 (α=0.70) K-7 (α=1.40)
TO (α=00) TO (α=0.70) TO (α=1.40)
TO sandID= 80 %
K-7 sandID= 60 %
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Radial distance from the center of the pile normalized by dividing distance of transducers to the pile tip radius (r/rn)
Effects of lateral earth pressure
16
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Tapering effects are higher in the most tapered piles adjacent to pile-ground interface
17
0 2 4 6 8 10 12 14 16 18 200
5
10
15
20
25
30
35
40
(b)
∆σ' N (k
Pa)
r/rn
TO sandID= 80 % α=00
α=0.70
α=1.40
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Extended model for Evaluating Skin Friction
• The proposed model was extended after Kodikara and Moore (1993); the model was incorporated for determination of skin friction using cylindrical cavity expansion theory by Yu and Houlsby (1991).
• Generally, one of the soil parameters, either angle of internal
friction or dilatancy angle is assumed to be constant. • However, the stress-dilatancy relationship is interdependent
on the confining pressure, relative density and angle of internal friction.
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Concept of Determination of Skin Friction
19
the vertical pile movement up at any point X on the pile-ground interface > the vertical ground movement ug at the corresponding point Y. While the pile is displaced from point X to X′, the ground moves from point Y to Y′, obtaining the lateral movement v.
After Kodikara & Moore (1993)
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20
Pile ground slips but exhibits elastic deformation
𝝉𝒙 =𝑲𝒆 𝒕𝒕𝒕𝜶 𝒕𝒕𝒕 φ𝒊 + 𝜶 𝒖𝒑 + 𝝈𝟎 𝒕𝒕𝒕 φ𝒊 + 𝜶 + 𝒄𝒊′
𝟏 + 𝑲𝒆𝒓𝒎𝑮 𝒕𝒕𝒕𝜶 𝒕𝒕𝒕 φ𝒊 + 𝜶
when (up > (up)Y) or σ > σY, the plastic zone is developed along with slippage to obtain an elastic perfectly plastic pile-ground interface and plastic zones extends more. In this case, the radial stress (σ) will be changed into the form:
𝝈 = 𝝈𝒀 + � 𝑲𝒑
𝒗
𝒗𝒀𝒅𝒗
Where, vY can be computed using (up)Y and (τx,)Y which is the vertical shear stress when up= (up)Y. Then, the corresponding vertical shear stress, τx can be expressed as:
𝝉𝒙 = 𝝈𝒀 + � 𝑲𝒑
𝒗
𝒗𝒀𝒅𝒗 𝒕𝒕𝒕 φ𝒊 + 𝜶 + 𝒄𝒊′
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Improved Skin Friction
21
Stress-Dilatancy Relationship
Generally, the dilatancy angle is considered to be zero for evaluating large strain analyses.
But the real ground behaves the angle of internal friction and the rate of dilatancy at the critical state are as interdependent functions of density and effective stress.
The density and confining pressure change significantly when a tapered pile penetrates with settlement ratios.
The confining pressure increases with increasing relative density together with the angle of internal friction and dilatancy.
Therefore the stress-dilatancy property is inserted in the cavity expansion theory (Yu and Houslby, 1991) and proposed model for determination of the skin friction by Kodikara and Moore (1993).
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Stress-Dilatancy Relationship (Bolton, 1986,1987)
22
Where, φ′max, φ′cv, ψmax, and IοR are the maximum angle of friction, the angle of friction at critical states, maximum dilation angle and the relative dilatancy index at plane strain.
The relative dilatancy index IR is a function of relative density ID and mean effective stress p′.
A plastic zone will be obtained at the cavity wall within the region a ≤ r ≤ b, with an increment of cavity pressure p. By partitioning elastic and plastic regions, the stress component at the plastic region that satisfies the equilibrium condition as:
𝒑′ = −𝒑𝟎𝒃𝜶′−𝟏𝜶′ 𝒓−
𝜶′−𝟏𝜶′
𝒑′ = −𝒑𝟎𝑹
φ𝒎𝒕𝒙′ − φ𝒄𝒗′ = 𝟎.𝟖ψ𝒎𝒕𝒙 = 𝟓 𝑰𝑹𝒐 𝑰𝑹 = 𝑰𝑫 𝟏𝟎 − 𝒍𝒕𝒑′ − 𝟏 and,
At the boundary of plastic region where r ≤ a, the effective mean stress can be modified to:
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Results of the Model using Load Transfer Method
• The load transfer method proposed by Coyle and Reese (1966) [based on Seed and Reese (1957)] is used to estimate the skin friction by inserting a stress-dilatancy property as the extended model.
• A small settlement at the pile base is specified and the axial
load at the top of this segment is iteratively synchronized to satisfy the equilibrium condition, and the process undergoes to next segment to calculate the settlement.
23
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Proposed Extended Model
24
1 2
n i
1
Yes
No
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25
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Results
26
0.0 0.1 0.2 0.3 0.4 0.5 0.60
50
100
150
200
250
300
350
400
τ xa
v (KP
a)
S/D
K-7 (α=00) K-7 (α=0.70) K-7 (α=1.40) TO (α=00) TO (α=0.70) TO (α=1.40)
K-7 sandID= 60 %
TO sandID= 80 %
The vertical shear stress increases with increasing tapering angles for different types of sandy ground.
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27
0.0 0.1 0.2 0.3 0.4 0.5 0.60
100
200
300
400
500
600
Fanshawe brick sandID= 90 %; σ0= 60 KPa (HP)
Fanshawe brick sandID= 90 %; σ0= 30 KPa (LP)
τ xav (
KPa)
S/D
LP (α=00) LP (α=0.530) LP (α=0.710) LP (α=1.130) HP (α=00) HP (α=0.530) HP (α=0.710) HP (α=1.130)
For different ground and confining pressures, the skin friction increases with the same ratio irrespective of soil type
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Normalized shear stress of the most tapered pile shows remarkable improvement on skin friction.
28
0.0 0.1 0.2 0.3 0.4 0.5 0.60.0
0.4
0.8
1.2
1.6
2.0
2.4
2.8
3.2
S/D
(τxa
v) Tape
red
pile/(τ
xav) St
raig
ht p
ile
K-7 (α=00) K-7 (α=0.70) K-7 (α=1.40)
TO (α=00) TO (α=0.70) TO (α=1.40)
K-7 sandID= 60 %
TO sandID= 80 %
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Average radial stress of the most tapered pile increased remarkably with settlement ratios.
29
0.40
0.35
0.30
0.25
0.20
0.15
0.10
0.05
0.000 100 200 300 400 500 600 700
S/
D
Average radial stress, σav (KPa)
Fanshawe brick sandID= 90 %; σ0= 30 KPa
α=00
α=0.530
α=0.710
α=1.130
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Parametric Study and Validity of the Model
A real type Rybnikov (1990) pile and prototype pile (Sakr et. al, 2004, 2005, and 2007) are accomplished to check and validate the applicability of the proposed model.
30
Parameters
Rybnikov Pile Material
Default (α = 2) α = 0 α =1.2 α = 2.4 α = 2.66 α = 1 α = 3 α = 4 α = 5
G, MPa Formula Formula Formula Formula Formula Formula Formula Formula Formula
C, KPa 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 ci, KPa 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 φο Iteration Iteration Iteration Iteration Iteration Iteration Iteration Iteration Iteration
ψ ο Iteration Iteration Iteration Iteration Iteration Iteration Iteration Iteration Iteration
L, mm 4500 4500 4500 4500 4500 4500 4500 4500 4500 αο 2 0 1.2 2.4 2.66 1 3 4 5 ID 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 σo, KPa 25 25 25 25 25 25 25 25 25 φ′cv 32ο 32ο 32ο 32ο 32ο 32ο 32ο 32ο 32ο
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Skin friction increased remarkably together with increasing tapering angle at settlement ratio of 0.1.
31
0 1 2 3 4 50.00.51.01.52.02.53.03.54.04.5
Tapering angle (αο)
(τxa
v) tape
red
pile /
(τxa
v) stra
ight
pile
Fanshawe brick sand K-7 sand TO sand Rybnikov
S/D = 0.1
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Normalized average vertical shear stress increased with increasing dilatancy angles.
32
0.0 0.1 0.2 0.3 0.4 0.5 0.60.00.51.01.52.02.53.03.54.0
ψ = 00
ψ = 50
ψ = 100
Rybnikov pile materialσ0 = 25 KPa; α = 2.00 (τ xa
v) tape
red/(
τ xav) st
raig
ht
S/D
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Normalized average vertical shear stress increased with increasing relative densities of the ground.
33
0.0 0.1 0.2 0.3 0.4 0.5 0.60.00.51.01.52.02.53.03.54.0
(τ xav) ta
pere
d pi
le/(τ
xav) st
raig
ht p
ile
ID = 0.6 ID = 0.8 ID = 0.9
Rybnikov pile materialσ0 = 25 KPa; α = 2.00
S/D
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The measured and predicted skin frictions lie near to each other with increasing settlement ratios.
34
0.6
0.5
0.4
0.3
0.2
0.1
0.00 10 20 30 40
Toyoura sandσ'v = 50 kPaφ'cv = 32o
α = 1.4o
ID = 0.8
S/D
Predicted
Measured
fs, kPa
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The measured and predicted unit skin frictions validated for different types of piles and sandy ground.
35
0 100 200 300 400 500 6000
100
200
300
400
500
600Legend K-7, α=0o
K-7, α=0.7o
K-7, α=1.4o
TO, α=0o
TO, α=0.7o
TO, α=1.4o
FS, α=0o(LP) FS, α=0.53o(LP)FS, α=0.71o(LP)FS, α=1.13o(LP) FS, α=0o(HP) FS, α=0.53o(HP) FS, α=0.71o(HP) FS, α=1.13o(HP)
LP = Low PressureHP = High PressureTO = Toyoura SandFS = Fanshawe Brick Sand
(f s) m, k
Pa
(fs)cal, kPa
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Conclusions
• The mobilized mechanism of skin friction shows that the effective radius of the influenced zone around the pile shaft increases in line with increases in the tapering angle.
• The extended model with the inserted stress-dilatancy property can
predict skin friction using cylindrical cavity expansion theory in closed form solution and can easily determine with simple fundamental properties of soils.
• The predicted skin friction using the extended model shows good
agreement with measured skin friction from various sources.
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• Manandhar, S., Yasufuku, N., and Omine, K. Application of cavity expansion theory for evaluating skin friction of tapered piles in sands. International Journal of Geo-Enginering 4 (3), 2012, pp.5-17. • Manandhar, S. and Yasufuku, N. Evaluation of skin friction of tapered piles in sands based on Cavity Expansion Theory. Memoirs of the Faculty of Engineering, Kyushu University 71 (4), 2011, pp.101-126. • Manandhar, S. Bearing capacity of tapered piles in sands. PhD Thesis, Kyushu University, 2010 (Unpublished). • Manandhar, S., Yasufuku, N., Omine, K., and Taizo, K. Response of tapered piles in cohesionless soil based on model tests. Journal of Nepal Geological Society 40, 2010, pp. 85-92. • Manandhar, S., Yasufuku N., and Omine, K. Tapering effects of piles in cohesionless soil. In: Proceedings: 4th Japan-China Geotechnical Symposium on Recent Developments of Geotechnical Engineering, Okinawa, Japan, 2010, pp. 477-482. • Manandhar, S., Yasufuku, N., and Shomura, K. Skin Friction of Taper-shaped Piles in Sands. In: Proceedings of the ASME, 28th International Conference on Ocean, Offshore and Arctic Engineering (OMAE), Honolulu, Hawaii, USA, 2009, pp. 93-102. • Manandhar, S., Yasufuku N., Omine K., and Qiang, L. Mobilized mechanism of skin friction of tapered piles in sand. In: Proceedings: International Joint Symposium on Geo-Disaster Prevention and Geoenvironment in Asia - JS-Fukuoka 2009, Fukuoka, Japan, 2009, pp. 171-178. • Kodikara, J.K., Moore, I.D. Axial response of tapered piles in cohesive frictional ground. Journal of Geotechnical Engineering - ASCE 119, 1993, pp. 675-693. • Bolton, M.D. The Strength and Dilatancy of Sands. Géotechnique 36 (1), 1986, pp. 65-78. • Bolton, M.D. Discussion on the Strength and Dilatancy of Sands. Géotechnique 37 (2), 1987, pp. 219-226. • Coyle, H. M., Reese, L. C. Load Transfer for Axially Loaded Piles in Clay. International Journal of Soil Mechanics and Foundation Div−ASCE 92 (1), 1966, pp. 1-26. • Seed, H. B., and Reese, L. C. The action of soft clay on friction piles. Transaction, ASCE 122, 1957, pp. 731-754. • Sakr, M., El Naggar, M.H., and Nehdi, M.L. Load transfer of fibre-reinforced polymer (FRP) composite tapered piles in dense sand. Canadian Geotechnical Journal 41 (1), 2004, pp.70-88. • Sakr, M., El Naggar, M.H., and Nehdi, M.L. Uplift performance of FRP tapered piles in dense sand. IJPMG-International Journal of Physical Modelling in Geotechnics 2, 2005, pp.1-16. • Sakr, M., El Naggar, M.H., and Nehdi, M.L. Wave equation analyses of tapered FRP-concrete piles in dense sand. Soil Dynamics and Earthquake Engineering 27, 2007, pp. 166-182. • Rybnikov, A.M. Experimental Investigation of Bearing Capacity of Bored-cast-in-place Tapered Piles. Soil Mechanics and Foundation Engineering 27 (2), 1990, pp. 48-52.
References
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Thank you for
your kind attention !!!
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