|
|||||
|
|
Support Mechanisms of Rammed Aggregate Piers. I: Experimental Results |
|
| Authors: | David J. White Ha T. V. Pham Kenneth K. Hoevelkamp |
| Affiliation: | 1Associate Professor, Dept. of Civil, Construction and Environmental Engineering, Iowa State Univ. of Science and Technology, Ames, IA 50011-3232. E-mail: djwhite@iastate.edu 2Geotechnical Engineer, CH2M Hill, 1100 112th Ave., Suite 400, Bellevue, WA 98004-4504. E-mail: ha.pham@ch2m.com 3Associate Project Engineer, Geopier Foundation Company–West, 94 Montara Dr., Aliso Viejo, CA 92656. E-mail: kenh@geopier.com |
| Abstract: | This paper is the first of a two-part series investigating the mechanical behavior of rammed aggregate pier (RAP) groups supporting isolated rigid footings. The first paper presents the experimental test results from instrumented load tests performed on two different 2.3?m square reinforced concrete footings supported by four 0.76?m diameter RAPs of two different pier lengths—2.8 and 5.1?m. Comparisons are made to load tests performed on three isolated RAPs of the same diameter and lengths. Instrumentation consisted of total stress cells, inclinometers, and tell-tale reference plates. Soil conditions at the test site were evaluated using various in situ testing techniques and consist of relatively uniform soft alluvial clay overlain by a 1-m-thick desiccated layer. Interpretations of the test results focused on load-deformation behaviors of the isolated piers and pier groups, group efficiencies in terms of settlement and bearing capacity, stress concentrations as a function of applied load at the top of the piers, and stress transfer with depth. |
| Keywords: | Piers Bearing capacity Soil-structure interaction Soil stabilization Load tests Instrumentation |