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European Journal of Environmental and Civil Engineering Volume 17, 2013 - Issue sup1: Geotechnical issues in civil and environmental engineering
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Articles

Laboratory study on flow characteristics of liquefied and post-liquefied sand

Yumin ChenKey Lab of Ministry of Education for Geomechanics and Embankment Engineering, College of Civil and Transportation Engineering, Hohai University, Nanjing, China.
,
Hanlong LiuKey Lab of Ministry of Education for Geomechanics and Embankment Engineering, College of Civil and Transportation Engineering, Hohai University, Nanjing, China.Correspondence[email protected]
&
Haiqing WuKey Lab of Ministry of Education for Geomechanics and Embankment Engineering, College of Civil and Transportation Engineering, Hohai University, Nanjing, China.
Pages s23-s32 | Published online: 10 Oct 2013

References

  • Chen, Y-m, Liu, H-l, & Zhou, Y-d (2006). Analysis on flow characteristics of liquefied and post-liquefied sand. Chinese Journal of Geotechnical Engineering, 28, 1139–1143.
  • Chen, Y-m, & Zhou, Y-d (2007). Advance in sand post-liquefaction research based on fluid mechanics method. Journal of Hohai University, 35, 418–421.
  • Liu, H.-l. (2003). Soil dynamics and geotechnical earthquake engineering. Proceedings of the 9th Soil Mechanics and Geotechnical Engineering Conference. Beijing: Tsinghua University Press, pp. 56–68 (in Chinese).
  • Miyajima, M., Hasegawa, M., Kitaura, M., Koike, T., & Kitano, Y. (1994). Experimental study on effects of liquefaction-induced lateral spreading on buried structures. Proceeding of Ninth Japan Earthquake Engineering Symposium, 2, 1363–1368.
  • Miyajima, M., Kitaura, M., & Kitano, Y. (1994). Model tests on variation of soil properties with the extent of liquefaction. Proceeding of the Annual Conference of JSCE, 3, 548–549.
  • Miyajima, M., Kitaura, M., Koike, T., Hasegawa, M. (1995). Experimental study on characteristics of liquefied ground flow. The First International Conference on Earthquake Geotechnical Engineering, Balkema, pp. 969–974.
  • Nishimura, S., Towhata, I., & Honda, T. (2002). Laboratory shear tests on viscous nature of liquefied sand. Soils and Foundations, 42, 89–98.
  • Sasaki, Y., Towhata, I., Tokida, K. I., Yamada, K., Matsumoto, H., & Tamari, Y. (1992). Mechanism of permanent displacement of ground caused by seismic liquefaction. Soils and Foundations, 32, 79–96.
  • Tamate, S., & Towhata, I. (1999). Numerical simulation of ground flow caused by seismic liquefaction. Soil Dynamics and Earthquake Engineering, 18, 473–485.
  • The Committee of Soil Dynamics of Geotechnical Engineering Division (1978). Definition of terms related to liquefaction. Journal of Geotechnical Engineering. ASCE, 104, 1120–1197.
  • Towhata, I., Vargas-Monge, W., Orense, R. P., & Yao, M. (1999). Shaking table tests on subgrade reaction of pipe embeded in sandy liquefied subsoil. Soil Dynamics and Earthquake Engineering, 18, 347–361.

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