Following is the variation of N60 with depth in a granular soil deposit. A concrete pile 9 m long (460 mm x 460 mm in cross section) is driven into the sand and fully embedded in the sand.  Estimate the allowable load-carrying capacity of the pile (Qall). Use FS as 4 and Meyerhof’s equations

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Chapter2: Loads On Structures
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Following is the variation of N60 with depth in a granular soil deposit. A concrete pile 9 m long (460 mm x 460 mm in cross section) is driven into the sand and fully embedded in the sand. 

Estimate the allowable load-carrying capacity of the pile (Qall). Use FS as 4 and Meyerhof’s equations 

9.5 Following is the variation of Ngo with depth in a granular soil deposit. A concrete
pile 9 m long (460 mm × 460 mm in cross section) is driven into the sand and fully
embedded in the sand.
Depth (m)
Ngo
1.5
4
3.0
7
4.5
9
6.0
10
7.5
16
9.0
20
10.5
21
11.0
23
12.5
20
14.0
21
Transcribed Image Text:9.5 Following is the variation of Ngo with depth in a granular soil deposit. A concrete pile 9 m long (460 mm × 460 mm in cross section) is driven into the sand and fully embedded in the sand. Depth (m) Ngo 1.5 4 3.0 7 4.5 9 6.0 10 7.5 16 9.0 20 10.5 21 11.0 23 12.5 20 14.0 21
Y = 15.7 kN/m
o' = 32°
3 m
c' = 0
Groundwater
"fable
Yat = 18.2 kN/m
6' = 32°
c' = 0
3 m
= 19.2 kN/m
Ysat
d' = 40°
15 m
c' = 0
381 mm
Figure P9.4
Estimate the allowable load-carrying capacity of the pile (Qai). Use FS = 4 and
Meyerhof's equations [Eqs. (9.37) and (9.45)].
9p = 0.4p,N60
< 4p N60
(9.37)
Meyerhof (1976) indicated that the average unit frictional resistance, fav, for
high-displacement driven piles may be obtained from average standard penetration
resistance values as
fav = 0.02p.(No)
(9.45)
where
(N6o) = average value of standard penetration resistance
Pa = atmospheric pressure (100 kN/m² or 2000 lb/ft)
Transcribed Image Text:Y = 15.7 kN/m o' = 32° 3 m c' = 0 Groundwater "fable Yat = 18.2 kN/m 6' = 32° c' = 0 3 m = 19.2 kN/m Ysat d' = 40° 15 m c' = 0 381 mm Figure P9.4 Estimate the allowable load-carrying capacity of the pile (Qai). Use FS = 4 and Meyerhof's equations [Eqs. (9.37) and (9.45)]. 9p = 0.4p,N60 < 4p N60 (9.37) Meyerhof (1976) indicated that the average unit frictional resistance, fav, for high-displacement driven piles may be obtained from average standard penetration resistance values as fav = 0.02p.(No) (9.45) where (N6o) = average value of standard penetration resistance Pa = atmospheric pressure (100 kN/m² or 2000 lb/ft)
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