Wedge failure is known as single block failure which is happened on the oblique slope according to the previous studies, but in the field the failure often occurs with multi-blocks. It is called “multi-fractured complex wedge failure” in this study. This kind of failure has complex failure mode which is dominated by the geometrical properties of rock joint, such as orientation, spacing and persistence. Two classic cases in Taiwan, which were occurred at a steep cut rock slope on Bridge Minbaklu, Provincial Highway 20 and 32.5k, Provincial Highway 7. Both cases destroyed the roads and protection measures. They were completely recorded with UAV-surveys, field investigations and witness. The failure is keep happening. The influence of the joint characterization on “multi-fractured complex wedge failure” need to be study in more detail. According to the field investigation of the case occurred on 32.5k, Provincial Highway 7, groundwater was discovered flowing out from the line of intersection of persistence joints, which could be the main reason leads to the failure. Joint persistence and groundwater are critical factors that influence the stability of rock slope. Persistence dominates the extent of pre-existing potential failure surfaces. Under certain conditions, slope instability may vary with time, as the propagation of existing joints leads to the development of fully persistence failure surfaces. At the same time, groundwater may travel through the fracture network and provides an external force to unstable rock masses, resulting in the damage of rock slope failure hard to predict. In this study, sandbox model was applied to clarify the effects of the groundwater and joint friction on failures of single rock wedge. In addition, the software 3DEC （Three-Dimensional Distinct Element Code）, which is based on Distinct Element method, was carried out to extent the analysis conditions. The results of sandbox simulations were used to calibrate the performance of the numerical model, especially the coupled hydro-mechanical analysis. The stability of jointed rock slopes under different spacing, persistence and various water pressure conditions has been studied. It is believed that the study can enhance the way for stability analysis and monitoring of the potential failure of jointed rock slopes.