Open AccessJournal Article
Closure of "Lateral Load Behavior of Pile Group in Sand"
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In this article, a large-scale group of steel pipe piles and an isolated single pile were subjected to two-way cyclic lateral loading in a submerged firm to dense sand that was placed and compacted around the piles.Abstract:
A large‐scale group of steel pipe piles and an isolated single pile were subjected to two‐way cyclic lateral loading. The tests were conducted in a submerged firm to dense sand that was placed and compacted around the piles. All of the piles were extensively instrumented so that the variation in soil resistance within the group could be determined. The response of the piles in the group was also compared with the response of the isolated single pile. The loss of efficiency of the piles in the group was related principally to “shadowing” (i.e., the loss of soil resistance of piles in the trailing rows). Piles in the leading row supported a large proportion of the group load and behaved similarly to the isolated single pile. Two‐way cyclic loading had little effect on the distribution of load to the piles in the group, but tended to densify the sand around both the single pile and the group piles.read more
Citations
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References
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Journal ArticleDOI
Lateral Load Behavior of Full-Scale Pile Group in Clay
TL;DR: In this article, a static lateral load test was performed on a full-scale pile group to determine the resulting pile-soil-pile interaction effects, and good agreement between the measured and computed pile group responses was obtained using the p-multiplier approach.
Journal ArticleDOI
Three-dimensional nonlinear study of piles
TL;DR: In this article, the effect of nonlinear soil behavior on the axial and lateral response of piles to monotonic and cyclic loading with a view towards developing simplified, yet realistic models for representing pile-soil-pile interaction effects is examined by means of a three-dimensional finite element elastoplastic model that includes interface elements for representing slippage and pile•soil separation.
Journal ArticleDOI
Centrifuge Testing of Large Laterally Loaded Pile Groups in Sands
TL;DR: In this article, an apparatus was developed to load large pile groups (3 × 3 to 7 × 3) founded in sand in the centrifuge laterally in order to determine bending moments and shear forces at the head of each pile.
Cyclic Lateral Loading of Large-Scale Pile Group
TL;DR: In this paper, a large-scale group of nine steelpipe piles in a closely-spaced arrangement was subjected to two-way, cyclic, lateral loading with water above the ground surface.
Journal ArticleDOI
Lateral response of three-row groups in loose to dense sands at 3d and 5d pile spacing
TL;DR: The results of the tests showed that the ratio of lateral resistance of a group to a single pile, i.e. efficiency, was independent of soil density as mentioned in this paper, and that the multipliers did not vary significantly at 5D spacing but did vary somewhat at 3D spacing.