There are many dip slopes in Taiwan. The failure of dip slope often has rapid collapse and sliding that causes significant casualties. Rock slope usually contains discontinuities such as bedding, foliation, joints, which are the key factor of rock slope stability. Thereforce, the discrete element analysis is a powerful method to investigate the stability of dip-slope. In this study, PFC2D software is choose as the discrete element method to analyze rock dip-slope. Use the rough-joint model which developed by Chiu (2016) to simulate the weak plane and then analyze the failure mechanism of rock slope. This study first verity out the accuracy of rough-joint model by numerical direct shear test, and then simulate laboratory direct shear test with artificial rock sample to investigate the applicability of this model. Finally, set up a numerical rock slope model with in-situ data and then compare it with practical condition to discuss about the application of the rough-joint model on rock slope failure analysis. In the part of rough-joint model verification, substituting the same parameter into Barton’s model and rough joint model can get a Barton’s theory curve and data of simulation. After comparison with each orther, we can find that rough-joint model can represent Barton’s model reasonably, and it let PFC2D express weak plane more precise. For the actual case-Wulai Zhongzhi, take the weakness of joints and rock material as sliding factor. The results of simulation are similar to practical condition and it indicate that rough-joint model can simulate rock slope well.