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Volume 31 Issue 06
Jun.  2005
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Journal of Beijing University of Aeronautics and Astronautics  > 2005  >  31(06): 682-685.
Long Liping, Wu Yanfeng, Ding Hua, et al. Detection of underground cracks and thin weak layers using blasting vibration[J]. Journal of Beijing University of Aeronautics and Astronautics, 2005, 31(06): 682-685. (in Chinese)
Citation: Long Liping, Wu Yanfeng, Ding Hua, et al. Detection of underground cracks and thin weak layers using blasting vibration[J]. Journal of Beijing University of Aeronautics and Astronautics, 2005, 31(06): 682-685. (in Chinese)
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Detection of underground cracks and thin weak layers using blasting vibration

  • 1.

    School of Aeronautic Science and Technology, Beijing University of Aeronautics and Astronautics, Beijing 100083, China

  • 2. DES, Institute of Mechanics, Chinese Academy of Sciences, Beijing 100080, China

  • Received Date: 13 Feb 2004
  • Publish Date: 30 Jun 2005
    Abstract
  • By using the assertion that the propagated wave signal mainly comes from the natural vibration of geophysical structure after blasting, a new technique is proposed for detecting underground large scale cracks and thin weak layers. This technique indicates that the local stiffness decreases, owing to the exist of the cracks or thin weak layers in the medium, which directly effects the vibration velocity and frequency of the medium. The character of cracks or thin weak layers can be detected by the signals (including the vibration velocity and frequency) received on the ground if placing the source of blasting vibration near cracks or thin weak layers. The calculations were performed by a recently developed SPH(smoothed particle hydrodynamics) method and shown the contrast of the blasting vibration signals between the situation when cracks were horizontal and inclined. The results drawn a conclusion and showed the possibility of this method.

     

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  • [1] 丁 桦,郑哲敏. 爆破震动等效载荷模型[J]. 中国科学,E辑,技术科学,2003,33(1):82~90 Ding Hua, Zheng Zhemin. Source model of blasting vibration[J]. Science in China, Series E, 2003, 33(1):82~90(in Chinese) [2] Libersky L D, Petschek A G. High strain lagrangian hydrodynamics-a three-dimensional SPH code for dynamic material response [J]. Journal of Computational Physics, 1993,109:67~75 [3] Swegle J W, Hicks D L, Attaway S W. Smoothed partical hydrodynamics stability analysis[J]. Journal of Computational Physics, 1995, 116:123~134 [4] 张锁春. 光滑质点流体动力学(SPH)方法(综述)[J]. 计算物理,1996,13(4):385~397 Zhang Suochun. Smoothed particle hydrodynamics (SPH) method (a review)[J]. Chinese Journal of Computational Physics, 1996, 13(4):385~397(in Chinese) [5] Liu M B, Liu G R, Zong Z, et al. Computer simulation of high explosive explosion using smoothed particle hydrodynamics methodology[J]. Computer & Fluids, 2003,32:305~322 [6] Monaghan J J. An introduction to SPH [J]. Computer Physics Communications,1988,48:89~96 [7] Monaghan J J, Gingold R A. Shock simulation by the particle method SPH . Journal of Computational Physics,1983,52:374~389 [8] Randles P W, Libersky L D. Smoothed particle hydrodynamics:some recent improvements and applications [J]. Computer Methods in Applied Mechanics and Engineering, 1996,139:375~408
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