Explosive analysis on underground tunnels

  1. C. W. Lampson, “Effects of impact and explosions,” in Explosions in Earth, NRDC Washington, 1946.
  2. J. Drake and C. D. J. Little, “Ground shock from penetrating conventional weapons,” 1983.
  3. P. Westine and G. Friesenhahn, “Free-field ground shock pressures from buried detonations in saturated and unsaturated soils,” in Interaction of Non-nuclear Munitions with Structures, 1983.
  4. L. Muyu and L. Zhifang, “Analysis of dynamic response of Yangtze River tunnel subjected to contact explosion loading,” Journal of Wuhan University of Technology, pp. 113–117, 2007.
  5. H. Qiuyun, Y. Haitao, and Y. Yong, “Numerical simulation of dynamic response of an existing subway station subjected to internal blast loading,” Transactions of Tianjin University, pp. 563-568, 2008.
  6. E. L. Lee, H. C. Hornig, and J. W. Kury, “Adiabatic expansion of high explosive detonation products,” Lawrence Radiation Laboratory, UCRL-50422, 1968.
  7. S. Xiaojiang and S. Jianyu, “ANSYS/LS-DYNA dynamic analysis methods and projects,” Beijing: China Water Power Press, 2006.
  8. LS-DYNA, “LS-DYNA user’s manual, version 971,” Livermore software technology cooperation, 2012.
  9. L. Guobin and H. Xueyuan, “Unloading modulus of the Shanghai soft clay,” Chinese Journal of Geotechnical Engineering, pp. 18–23, 1996.
  10. Y. Yang, X. Xie, and R. Wang, “Numerical simulation of dynamic response of operating metro tunnel induced by ground explosion,” Journal of Rock Mechanics and Geotechnical Engineering, 2010.
  11. U. S. Department of the Army, “Fundamental of protective design for conventional weapons,” US Army Engineer Waterways Experiment Station, TM5-855-1, 1984.
  12. E. C. Leong, S. Anand, and H. K. Cheong, “Re-examination of peak stress and scaled distance due to ground shock,” International Journal International Journal, pp. 1487-1499, 2007.