Dynamic mechanical mechanism and optimization approach of roadway surrounding coal water infusion for dynamic disaster prevention

Abstract

Roadway surrounding coal water infusion is a most significant technical means for the dynamic disasters prevention. To evaluate its efficiency in dynamic mechanical environment, the damage distribution and mechanical parameters were analyzed before and after water infusion. And the relationship among damage distribution, dynamic mechanical parameters, and stress wave propagation were established. With the medium of the wave impedance, the stress wave transmission process was characterized, and the dynamic stability criterion was established from the perspectives of energy and stress, respectively. On this basis, the optimization approaches were further proposed and validated in practice. The results demonstrate that water infusion can effectively enlarge the wave impedance difference among each adjacent circumferential coal segment and damage range in the surrounding coal. It will enhances the stress wave attenuation, thereby protecting the roadway from dynamic failure. To better play its role, the optimization approaches should focus on increasing the damage degree and range of the microscopic fracture zone in surrounding coal. These findings provide valuable insights into the design and implementation of surrounding coal water infusion for dynamic disasters prevention.