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Strain Rate, Creep, and Stress Drop-Creep Experiments on Crushed Coral Sand |
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| Authors: | Poul V Lade Carl D Liggio Jr Jungman Nam |
| Affiliation: | 1Professor, Dept. of Civil Engineering, The Catholic Univ. of America, Washington, D.C. 20064 (corresponding author). E-mail: lade@cua.edu 2Director, US Power Generating Company, LLC, 505 Fifth Ave., 21st floor, New York, NY 10017. E-mail: cliggio@aol.com 3Professor, Dept. of Civil & Environmental Engineering, Cheju National Univ., 66 Jejudaehakno, Jeju-Do 690-756, Korea. E-mail: jungman@cheju.ac.kr |
| Abstract: | The part of sand behavior that is affected by time, such as creep, relaxation, and loading rate effects are not similar to those observed for clay. To throw more light on the time effects in sand, many series of drained triaxial compression experiments have been performed on crushed coral sand. These tests were all performed with a constant effective confining pressure of 200?kPa. The test series included experiments with specimens loaded at five different strain rates with a 256-fold ratio between the extreme rates, tests with sudden changes in strain rate from slow to fast and vice versa, and tests in which axial and volumetric creep strains were observed at stress differences of 500, 700, and 900?kPa. Creep creates structuration and this has to be overcome to produce further plastic straining. Experiments were also performed in which the stress difference was dropped quickly from three different values of 500, 700, and 900?kPa followed by creep. In these stress drop-creep tests five different magnitudes of stress drops were employed: 0, 100, 200, 300, and 400?kPa. The results involving conventional creep effects and stress drop-creep effects are presented and analyzed. |
| Keywords: | Creep Granular materials Sand Soil properties Strain rate Time dependence Triaxial tests |