Analysis of Pile Groups with Variable Shaft‐Load over Point‐Load Ratios
Publication: Journal of Geotechnical Engineering
Volume 116, Issue 4
Abstract
Settlement of and load distribution in pile groups under vertical and centered static loads are analyzed. The analytical method incorporates the fact that shaft-load over point-load ratios vary throughout loading, thus coupling the effects of shaft loads and point loads on group settlement calculations. Other available methods uncouple shaft loads and point loads using simplifying assumptions that are not always in agreement with observed pile group behavior. It is assumed that the shaft load of piles in groups increases monotonically with loading according to a nonlinear relationship. This can be defined from results of a reference pile load test with point-load measurement, for instance. It is also assumed that the ultimate shaft load develops before he ultimate point load. These assumptions, which are in general agreement with observed behavior, are used along with settlement influence factors and settlement interaction factors numerically generated for a semi-infinite, homogeneous, linear, elastic, isotropic half space. The result is a set of nonlinear simultaneous algebraic equations that can be solved using an iterative numerical procedure to yield the group settlement, as well as point loads and shaft loads for each pile in the group. An example is provided to illustrate how the method compares with two other methods reported in the literature. The proposed method has the potential to accurately simulate the nonlinear load versus settlement behavior.
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Copyright © 1990 ASCE.
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Published online: Apr 1, 1990
Published in print: Apr 1990
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