Earth retaining 2

TOPIC 4 : LATERAL EARTH
PRESSURE
EARTH RETAINING
STRUCTURES
MARLIZA ASHIQIN BT KHAZALI

COURSE LEARNING
OUTCOME

• CLO 1 : Explain clearly the principle and
concept of geotechnical engineering (C4)

• CLO 2 : Solve problems in soil stability
using appropriate method (C4)

LATERAL EARTH PRESSURE
Types of Retaining Wall

2.4.1 Gravity Walls

2.4.2 Embedded walls

2.4.3 Reinforced and anchored earth

Gravity Walls

2.4.1 Gravity Walls
Masonry walls
Gabion walls
Crib walls
RC walls
Counterfort walls
Buttressed walls

Gravity Walls

Unreinforced masonry wall

Gravity Walls

Gabion wall

Gravity Walls

Crib wall

Gravity Walls

Types of RC
Gravity Walls

Embedded Walls

2.4.2 Embedded walls

Driven sheet-pile walls
Braced or propped walls
Contiguous bored-pile walls
Secant bored-pile walls
Diaphram walls

Embedded Walls

Types of embedded walls

Reinforced and Anchored Earth

2.4.3 Reinforced and anchored earth

Reinforced earth wall
Soil nailing
Ground anchors

Reinforced and anchored earth

Reinforced earth and soil nailing

Stability Criteria

2.5 Stability of Rigid Walls

Failures of the rigid gravity wall may occur
due to any of the followings:

 Overturning failure
 Sliding failure
 Bearing capacity failure

In designing the structures at least the first three of the
design criteria must be analysed and satisfied.

Stability Criteria

The stability of the retaining wall should be checked against :

(i) FOS against overturning (recommended FOS = 2.0)
Resisting moment
FOS =
Disturbing moment

(ii) FOS against sliding (recommended FOS = 2.0)
RV tan δ + (0.5 - 0.7) Pp + cw B
FOS =
RH

Stability Analysis
The stability of the retaining wall should
be checked against :

2.3.1 FOS against overturning
(recommended FOS =
2.0)
Resisting moment
FOS =
Disturbing moment ∑V

Ph
Pp

.. overturning about A
A

Stability Criteria

2.3.2 FOS against sliding
(recommended FOS = 2.0)

RV tan δ + (0.5 - 0.7) Pp + cw B
FOS =
RH
∑V

Ph

Pp

Friction & wall base adhesion

Stability Criteria

2.3.3 For base pressure (to be compared against the
bearing capacity of the founding soil. Recommended
FOS = 3.0)

RV  6e 
qb = 1 + 
B  B
Now, Lever arm of base resultant

∑ Moment
x=
RV
B
Thus eccentricity e = - x
2

Stability Analysis

∑V

Ph

Pp

Base pressure on the founding soil

Stability Analysis

Worked example :
Figure below shows the cross-section of a reinforced concrete
retaining structure. The retained soil behind the structure and
the soil in front of it are cohesionless and has the following
properties:

SOIL 1 : φu = 35o, γd = 17 kN/m3,
SOIL 2 : φu = 30o, δ = 25o , γd = 18 kN/m3,

γsat = 20 kN/m3

The unit weight of concrete is 24 kN/m3. Taking into account the
passive resistance in front of the wall, determine a minimum value
for the width of the wall to satisfy the following design criteria:

Factor of safety against overturning > 2.5
Factor of safety against sliding > 1.5
Maximum base pressure should not exceed 150 kPa

Stability Analysis
THE PROBLEM 30 kN/m2

0.5 m

SOIL 1
2.0 m

4.0 m GWT

SOIL 2
2.9 m

SOIL 2

0.6 m

4.5 m

2.0 m

Stability Analysis
30 kN/m2
THE SOLUTION
0.5 m

SOIL 1
W1 2.0 m P1 P3
W3 GWT
4.0 m

SOIL 2
W41
2.9 m
W2 P2 P4
SOIL 2
PP P5 P6
0.6 m
4.5 m
2.0 m

Stability Analysis
Determination of the Earth Pressure Coefficients

1 − sin φ 1 - sin 35 o
K a1 = = = 0.271
1 + sin φ 1 + sin 35 o

1 − sin φ 1 - sin 30
o
K a2 = = = 0.333
1 + sin φ 1 + sin 30 o

1 + sin φ 1 + sin 30 o
K p2 = = = 3.00
1 − sin φ 1 − sin 30 o

Stability Analysis

Stability Analysis

To check for stability of the retaining wall

(i) FOS against overturning > 2.5

Resisting moment 1288.55
FOS = = = 3.83 > 2.5, thus it is OK
Disturbing moment 336.50

(ii) FOS against sliding > 1.5

RV tan δ + 0.5 Pp 452.9 tan 25 o + 0.5 x 60.75
FOS = = = 1.34 < 1.5
RH 180.94

Thus it is not OK

Stability Analysis

(iii) For base pressure
RV  6e 
qb = 1 + 
B  B
Now, Lever arm of base resultant

∑ Moment 1288.55 - 336.5
x= = = 2.10
RV 452.9
B
Thus eccentricity e = - x = 2.25 - 2.10 = 0.15
2

452.9  6 x 0.15 
Therefore qb = 1 + 
4.5  4.5 

Stability Analysis
qb = 120.8 and 80.5 kPa

Since maximum base pressure is less than the bearing pressure of
the soil, the foundation is stable against base pressure failure.

DISTRIBUTION OF BASE PRESSURE

80.5 kPa
120.8 kPa

In conclusion the retaining wall is not safe against sliding. To
overcome this the width of the base may be increased or a
key constructed at the toe.

Earth retaining 2

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