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p-y Criterion for Rock Mass |
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| Authors: | Robert Liang Ke Yang Jamal Nusairat |
| Affiliation: | 1Professor, Dept. of Civil Engineering, Univ. of Akron, Akron, OH 44325-3905. E-mail: rliang@uakron.edu 2Geotechnical Engineer, CH2M HILL, 15010 Conference Center Dr., Suite 200, Chantilly, VA 20151; formerly, Graduate Research Assistant, Dept. of Civil Engineering, Univ. of Akron, Akron, OH 44325-3905. E-mail: kyang@ch2m.com 3Director of Geotechnical Engineering, E. L. Robinson of Ohio Co., 6000 Memorial Dr., Dublin, OH 43017. E-mail: jamal@elrobinson.com |
| Abstract: | Drilled shafts socketed in rock mass have been used frequently as a foundation system to support both vertical and lateral loads. Traditionally, the lateral interaction between the drilled shaft and the surrounding rock medium has been characterized by means of nonlinear p-y curves; however, there is a lack of well verified p-y criterion for rock mass. In this paper, a hyperbolic p-y criterion is developed based on both theoretical derivations and numerical (finite element) parametric analysis results. The methods for determining pertinent rock parameters needed for constructing the proposed p-y curves are presented in the paper. Two full-scale lateral load tests on large diameter, fully instrumented drilled shafts socketed in rock conducted by the writers, together with additional four load test results reported by Gabr et al. were used to validate the applicability of the proposed hyperbolic p-y curves for rock mass. The comparisons between the computed shaft responses (both deflections and bending moments) and the actual measured responses are considered acceptable. |
| Keywords: | Drilled shafts Lateral loads Rock mass Deflection |