Experimental and Numerical Analysis of Piled Raft Foundation with Different Length of Piles Under Static Loads

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Published: May 1, 2013
DOI: https://doi.org/10.31026/j.eng.2013.05.02
Keywords:
: Piled Raft; Different Length of Piles; Experimental and Numerical Static Work.

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Mosa Jawad Al-mosawe
A’amal Abdul Ghani Al-Saidi
Faris Waleed Jawad

Abstract

In order to understand the effect of (length of pile / diameter of pile) ratio on the load carrying capacity and settlement reduction behavior of piled raft resting on loose sand, laboratory model tests were conducted on small-scale models. The parameters studied were the effect of pile length and the number of piles. The load settlement behavior obtained from the tests has been validated by using 3-D finite element in ABAQUS program, was adopted to understand the load carrying response of piled raft and settlement reduction. The results of experimental work show that the increase in (Lp/dp) ratio led to increase in load carrying capacity by piled raft from (19.75 to 29.35%), (14.18 to 28.87%) and (0 to 16.49%) , the maximum load carried by piles decrease from(9.1 to 22.72%), (15.79 to 47.37%) and (44 to 81.05%) and the response of settlement piled raftdecrease from (16.67 to 23.33%), (9.09 to 39.39%) and (30%) with increase the number of piles from 4 to (6 and 9) and (length of pile / diameter of pile) ratio increase to (14.14 and 21.2), respectively. The numerical and model test results are found to be in a good agreement.

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How to Cite
“Experimental and Numerical Analysis of Piled Raft Foundation with Different Length of Piles Under Static Loads” (2013) Journal of Engineering, 19(05), pp. 543–549. doi:10.31026/j.eng.2013.05.02.
Issue
Vol. 19 No. 05 (2013): Journal of Engineering
Section
Articles
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This work is licensed under a Creative Commons Attribution 4.0 International License.

 
 

How to Cite

“Experimental and Numerical Analysis of Piled Raft Foundation with Different Length of Piles Under Static Loads” (2013) Journal of Engineering, 19(05), pp. 543–549. doi:10.31026/j.eng.2013.05.02.
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References

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