Proceedings of the Korean Geotechical Society Conference (한국지반공학회:학술대회논문집)
- 2010.03a
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- Pages.1148-1155
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- 2010
Development of Design and Field Quality Control Techniques of Shallow Foundation Resting on Intermediate Geomaterials
중간토에 지지된 직접기초의 설계 및 현장품질관리기법 개발
- Byun, Young-Gi (School of Civil, Environmental and Architectural Engrg., Koera Univ.) ;
- Park, Young-Ho (Expressway & Transportation Research Institute, Korea Expressway Corporation) ;
- Jeong, Hoon-Jun (GE&C Co. Ltd.) ;
- Lee, Woo-Jin (School of Civil, Environmental, and Architectural Engrg., Koera Univ.)
- Published : 2010.03.25
Abstract
To suggest a modified shallow foundation design method which can be considered the scale effect of foundation on IGM(intermediate geomaterial) soil layer, the weathered soil layer that is uniformly formed up to 8m(2B) with over 50 N-value is selected and 3 times field loading tests are performed on several sized square-shaped shallow foundations with 30, 75, 150, 240 and 400cm in width respectively. Because the soil modulus of elasticity(Es) calculated by soil investigation and 1st field test(PBT) results showed an underestimated tendency, a modified correlation is required for the reasonable estimation of Es on the weathered soil. Also, the N-value was increased with an increasing in depth. However, the N-values around the test foundations showed the different values even though the foundations on the same level because the test site was arranged by excavation. Therefore, the more detail soil investigations are required for the each test foundations respectively. Since Es based on elasticity theory is determined by the stress distribution shape of the foundation and elasticity modulus of the soil, the scale effect considered pressure-settlement curve can be clearly derived from the correlation on stress distribution shape and the variation of soil elasticity modulus with depth. Therefore, the modified correlation will be suggested to estimate a reasonable Es on the weathered soil, and the scale effect considered shallow foundation design method is also developed based on the elastic theory and field tests in this research.