Articles | Volume 372
Proc. IAHS, 372, 49–52, 2015
https://doi.org/10.5194/piahs-372-49-2015
Proc. IAHS, 372, 49–52, 2015
https://doi.org/10.5194/piahs-372-49-2015

  12 Nov 2015

12 Nov 2015

The deformation behavior of soil mass in the subsidence region of Beijing, China

F. Tian et al.

Related authors

Numerical analysis to determine the impact of land subsidence on high-speed railway routes in Beijing, China
C. Ye, Y. Yang, F. Tian, Y. Luo, and Y. Zhou
Proc. IAHS, 372, 493–497, https://doi.org/10.5194/piahs-372-493-2015,https://doi.org/10.5194/piahs-372-493-2015, 2015

Cited articles

Burbey, T. J.: Stress-strain analyses for aquifer-system characterization, Ground Water, 39, 128–136, 2001.
Hu, R. L., Yue, Z. Q., Wang, L. C., and Wang, S. J.: Review on current status and challenging issues of land subsidence in China, Eng. Geol., 76, 65–77, 2004.
Tomás, R., Herrera, G., Delgado, J., Lopez-Sanchez, J. M., Mallorquí, J. J., and Mulas, J.: A ground subsidence study based on DInSAR data: Calibration of soil parameters and subsidence prediction in Murcia City (Spain), Eng. Geol., 111, 19–30, 2010.
Zhang, A. J., Ye, Ch., Li, Y., and Xie, Z. H.: Beijing Groundwater, China Land Press, Beijing, 2008 (in Chinese).
Zhang, Y., Xue, Y. Q., Ye, S. J., Wu, J. C., and Li, Q. F.: Analysis of deformation of sand strata and land subsidence based on modes of groundwater level changes in Shanghai City, The Chinese Journal of Geological Hazard and Control, 17, 103–108, 2006 (in Chinese with English abstract).