Roughness characterization of rock fracture and its influence on fracture seepage characteristics

Roughness of rock fracture has a significant influence on the seepage characteristics of fracture. The point cloud data of rock fracture surface was collected by three-dimensional (3D) optical scanning system. The joint roughness coefficient (JRC) and surface roughness ratio (R-s) were calculated by SURFER and GEOMAGIC STUDIO, and the quantitative relationship between JRC and R-s was established. The effects of JRC and R-s on the fracture seepage characteristics in limestone were investigated by conducting seepage tests under the coupling effect of stress, seepage and chemical interaction. The results show that JRC is a logarithmic function of R-s, with the R-squared (R-2) of 0.912 8. The maximum relative error (MRE), mean absolute error (MAE) and root mean square error (RMSE) between the proposed characterization formula and seepage test results are 6.93%, 0.34 and 0.27, respectively. JRC shows qi adratic function and logarithmic function with the seepage flow and permeability at stable period, respectively. The fitted relationships of R-s and each parameter are consistent with that of JRC. The larger JRC is, the smaller the seepage flow and permeability are. The values of JRC and R-s of the fracture surface increase under the coupling effect of HMC (hydrological-mechanical-chemical) three fields. The characterization method proposed in this study can be used to estimate the surface roughness of rock fracture. Meanwhile, the value of JRC can be applied to predict the seepage flow and the permeability at stable seepage period.