DHARM
532 GEOTECHNICAL ENGINEERING
H=
4.5 m
Wall
AC 1 C 2 C C 3 C 4 C 5 C 6 (D)
B y= 70°
f= 32°
K
y-line
1
1 ¢
t
2 F
3
2 ¢ F¢
3 ¢
4 ¢
4
Repture plane
t^5 ¢
5
Culmann curve
6(6 )¢
t-t : tangent parallel to -linef
Fig. 13.68 Culmann’s method (Ex. 13.23)
Example 13.24: A retaining wall with its face inclined at 75° with horizontal is 10 m high and
retains soil inclined at a uniform surcharge angle of 10°. If the angle of internal friction of the
soil is 36°, wall friction angle 18°, unit weight of soil 15 kN/m^3 , and a line load of intensity 90
kN per metre run of the wall acts at a horizontal distance of 5 m from the crest, determine the
active thrust on the wall by Culmann’s method.
K
t¢
t¢
8 ¢
7 ¢
6 ¢
6
7
8
5 ¢
5
4
3
4 ¢
3 ¢
2
1 f= 36°
y= 57°
5m
A b10°
C 1 C^2
C 3
90 kN/m
C 4
C¢ C^5 C^6
C 7
C 8
Ground line
f-line
Modified
culmann line
Rupture line
Culmann line
without line load
F¢
10.35 m
10 m
Wall
a= 75°
B
Fig. 13.69 Culmann’s method for line load on backfill (Ex. 13.24)