Fine particles, when flowing with fluids in the Earth’s crust, can settle on surfaces of pores and fractures, and form colloid barriers which drastically reduce permeability of jointed media. When seismic waves travel in fault zones, which have greatly different stiffness as compared with enclosing rocks, the Biot slow wave originates, which can cause destruction of the colloid barriers, growth of permeability, redistribution of pore pressure and change in the stress–strain condition of a fault. This article describes the studies into conditions when regular seismic impacts induced by massive blasting can lead to a drastic change in the permeability in the fault zones.
Shatunov et al. (Wed,) studied this question.