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DUAN Zhuoping

  • Name
    DUAN Zhuoping
  • Title
    Professor
  • Address
    School of Mechatronical Engineering, Beijing Institute of Technology, Beijing, China
  • Tel
    +86-10-68915927
  • Email
    duanzp@bit.edu.cn

Research Interests

Science of Explosion damage, Shock dynamics of materials and structures, Detonation and Safety of energetic materials, Experimental explosion and shock dynamics

Academic Achievements

Won one Second Class Prize of The State Scientific and Technological Progress Award.
Won one First Class Prize of The National Defense Science and Technology Progress Award.
Won four Second Class Prizes of The National Defense Science and Technology Progress Award.
Won one Third Class Prize of The National Defense Science and Technology Progress Award.
[1] Yiru Liu, Zhuoping Duan*, Zhenyu Zhang, Zhuocheng Ou, Fenglei Huang, 2016. A mesoscopic reaction rate model for shock initiation of multi-component PBX explosives. Journal of Hazardous Materials, 317:44-51.
[2] Guanying Li, Zhuocheng Ou*, Ran Xie, Zhuoping Duan, FengLei Huang, 2016. A ubiquitiformal one-dimensional steady-state conduction model for a cellular material rod. International Journal of Thermophysics 37:41.
[3] Zhuoping Duan*, Yiru Liu, Zhenyu Zhang, Zhuocheng Ou, Fenglei Huang, 2015. Prediction of initial temperature effects on shock initiation of solid explosives by using mesoscopic reaction rate model. International Journal of Nonlinear Sciences and Numerical Simulation, 15(5):89-93.
[4] Cheng Yan, Zhuocheng Ou*, Zhuoping Duan, Fenglei Huang, 2015. An analytical approach to dynamic spalling of brittle materials. International Journal of Impact Engineering, 83:28-36.
[5] Zhuoping Duan, Haiying Zhang, Zhongjie Lu*, Zhuocheng Ou, Yan Liu, Fenglei Huang, 2014 Rear-surface collapse perforation of concrete targets under buried explosion. Engineering Structures, 59:507-511.
[6] Zhuoping Duan*, Yiru Liu, Zhenyu Zhang, Zhuocheng Ou, Fenglei Huang, 2014. Prediction of initial temperature effects on shock initiation of solid explosives by using mesoscopic reaction rate model. International Journal of Nonlinear Sciences and Numerical Simulation 15:299-305.