A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
An Assessment of Design Methods for Driven Piles in Sands
It is difficult to predict accurately the capacity of driven piles in sand. In practice, this uncertainty either leads to conservative designs if the capacity is under-predicted, or worse, if the capacity is over-predicted, it can lead to severe foundation problems. One significant possible cause of the problem is that currently available semi-empirical design methods do not capture the fundamental mechanisms that govern the load capacity of driven piles in sands. As-part of a recent research project at City University centrifuge tests on a driven model pile in sands have been undertaken. A fully instrumented model pile was constructed and pushed into samples of quartz and carbonate sand thus covering a wide range of mineralogies. Triaxial tests were used to determine the fundamental patterns of behavior of the sands. This allowed a general framework to be established, in which the in situ stress:volume relationship is shown to govern the capacity of the pile. The paper examines existing design methods for piles in sand in the light of the new understanding gained from the research, highlighting their deficiencies and suggesting an improved approach.
An Assessment of Design Methods for Driven Piles in Sands
It is difficult to predict accurately the capacity of driven piles in sand. In practice, this uncertainty either leads to conservative designs if the capacity is under-predicted, or worse, if the capacity is over-predicted, it can lead to severe foundation problems. One significant possible cause of the problem is that currently available semi-empirical design methods do not capture the fundamental mechanisms that govern the load capacity of driven piles in sands. As-part of a recent research project at City University centrifuge tests on a driven model pile in sands have been undertaken. A fully instrumented model pile was constructed and pushed into samples of quartz and carbonate sand thus covering a wide range of mineralogies. Triaxial tests were used to determine the fundamental patterns of behavior of the sands. This allowed a general framework to be established, in which the in situ stress:volume relationship is shown to govern the capacity of the pile. The paper examines existing design methods for piles in sand in the light of the new understanding gained from the research, highlighting their deficiencies and suggesting an improved approach.
An Assessment of Design Methods for Driven Piles in Sands
Klotz, U. (author) / Coop, M. R. (author) / Taylor, R. N. (author)
International Deep Foundations Congress 2002 ; 2002 ; Orlando, Florida, United States
Deep Foundations 2002 ; 1501-1517
2002-02-01
Conference paper
Electronic Resource
English
An Assessment of Design Methods for Driven Piles in Sands
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