불의 고리와 지반공학

참고문헌

1. Andrus, R.D., and K.H. Stokoe, 2000, Liquefaction resistance of soils from shear-wave velocity. Journal of Geotechnical and Geoenvironmental Engineering 126(11):1015-1025. https://doi.org/10.1061/(ASCE)1090-0241(2000)126:11(1015)
2. Harder, L.F. and H.B. Seed, 1986. Determination of penetration resistance for coarse-grained soils using the Becker hammer drill. Rep. UCB/EERC-86/06, Earthquake Engrg. Res. Ctr., University of California at Berkeley.
3. Ishihara, K., and M. Yoshimine, 1992. Evaluation of settlements in sand deposits following liquefaction during earthquakes. Soils and Foundations, 32(1):173-188. https://doi.org/10.3208/sandf1972.32.173
4. Iwasaki, T., F. Tatsuoka, K.I. Tokida and S. Yasuda, 1978. A practical method for assessing soil liquefaction potential based on case studies at various sites in Japan. Proceedings of the 2nd International Conference on Microzonation, San Francisco.
5. Olsen, R.S., 1998. Using the cone penetrometer test (CPT) to predict liquefaction potential. U.S. NCEER workshop on In-situ based technques for prediction of liquefaction potential.
6. Seed, H.B., K. Tokimatsu, L.F. Harder and R.M. Chung, 1985. Influence of SPT Procedures in soil liquefaction resistance evaluations. Journal of Geotechnical Engineering 111(12):1425-1445. https://doi.org/10.1061/(ASCE)0733-9410(1985)111:12(1425)
7. 기상청, http://www.kma.go.kr/weather/earthquake/domestictrend.jsp
8. 이종근, 최홍석, 2011. 기존 하구둑 시설물의 액상화 평가방법 및 평가사례, 시설안전지 38:134-158.
9. 정종홍, 2008. 지반의 확률 특성화를 위한 콘저항력의 공간변동성 연구, 서울대학교, 박사학위논문.
10. 한국지반공학회, 2006. 지반구조물의 내진설계, 서울: 구미서관.