Author:
Jia Zheng-Zhao,Li Hong-Jie,Li Wei,Yan Jie,Wang Xiao-He
Abstract
AbstractA large number of burnt rocks in some open-pit mines in Xinjiang, Inner Mongolia and Ningxia have a great influence on the blasting effect. For this kind of rock, through the analysis of physical and chemical changes, combined with ANSYS/LS-DYNA and PFC 2D numerical simulation software, a burnt rock model with multiple joint cracks and irregular distribution is constructed to simulate the blasting process of burnt rock under the combined action of stress wave and detonation gas. The results show that the fracture of rock mass affects the propagation of blasting cracks in the fracture area, resulting in stress concentration and stress hindrance. The action time of stress wave is reduced, and the energy of blasting gas is partially absorbed by the fracture, resulting in uneven stress on the burnt rock bench and seriously affecting the bench blasting effect.
Publisher
Springer Science and Business Media LLC
Reference26 articles.
1. Wang, X. G. Blasting Design and Construction (Metallurgical Industry Press, 2011).
2. He, M. C. & Miao, J. L. Rock burst process of limestone and its acoustic emission characteristics under true-triaxial unloading conditions. Int. J. Rock Mech. Min. Sci. 47(2), 286–298 (2010).
3. Ramulu, M., Chakraborty, A. K. & Sitharam, T. G. Damage assessment of basaltic rock mass due to repeated blasting in a railway tunnelling project–A case study. Tunn. Undergr. Space Technol. 24(2), 208–221 (2009).
4. Liu, H. Y., Kou, S. Q. & Lindqvist, P. A. Numerical studies on bit-rock fragmentation mechanisms. Int. J. Geomech. 8(1), 45–67 (2008).
5. Kipp, M. E., & Grady, D. E. Numerical studies of rock fragmentation. Sandia Labs., Albuquerque, (1980).
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