DHARM
SETTLEMENT ANALYSIS 411
11.9 ILLUSTRATIVE EXAMPLES
Example 11.1: A reinforced concrete foundation, of dimensions 18 m × 36 m, exerts a uniform
pressure of 180 kN/m^2 on a soil mass, with E-value 45 MN/m^2. Determine the value of immedi-
ate settlement under the foundation.
The immediate settlement, Si, is given by:
Si =
qB
E
I
s
s
.( 1 −ν^2 ).
Es = 45 MN/m^2 , q = 180 kN/m^2 , B = 18 m
Assume ν = 0.5
Is for L/B = 36/18 = 2 is 1.00
∴ Si =
180 18 1 0 5
45 1000
100
×−^2
×
×
(.)
.m
= 0.054 m = 54 mm.
Example 11.2: The plan of a proposed spoil heap is shown in Fig. 11.13(a). The heap will stand
on a thick, soft alluvial clay with the E-value 18 MN/m^2. The eventual uniform bearing pres-
sure on the soil will be about 270 kN/m^2. Estimate the immediate settlement under the point
X at the surface of the soil.
The area is imagined to be divided into rectangles such that X forms one of the corners
for each. This is as shown in Fig. 11.13(b).
The structure is flexible and the soil deposit is thick.
Therefore, Si = q. B
()
.
1 −ν^2
E
I
s
t
It being Terzaghi influence value, dependent on L/B.
By the principle of superposition,
Si = q.
()
..
1 2
121233
−
++
ν
E
IB I B I B
s
ejtt t
For Rectangle (1):
L/B = 150/50 = 3, It 1 = 0.88
For Rectangle (2):
L/B = 50/50 = 1, It 2 = 0.56
For Rectangle (3):
L/B = 50/25 = 2, It 3 = 0.76
Es = 18 MN/m^2 , q = 270 kN/m^2
Assume ν = 0.5
∴ Si =
270 1 0 5
18 1000
×−^2
×
(.)
(0.88 × 50 + 0.56 × 50 + 0.76 × 25)
=
270 0 75
18 1000
×
×
.
× 91 m ≈ 1.024 m.