Based on the Molecular Dynamics calculation method, the cascade collision process induced by Si, GaAs and 3C-SiC was simulated by using LAMMPS, and the evolution characteristics of the microscopic defects within the crystals were analyzed. The simulation results show that the cascade collision will form a structure similar to the displacement spike inside the crystal, and most of the vacancy defects gather inside the damage region, while the periphery of the damage region was mainly distributed with interstitial defects. Through clusters analysis in the three materials, it is found that the number and size of clusters in Si are more than that in GaAs, and the maximum size of the defect clusters reaches 17 atoms. Besides, the number of Frenkel pairs in the three materials changes in the same way, showing the trend of "rising, falling and stabilizing". However, the number of defects in 3C-SiC is much smaller than that in Si and GaAs, indicating that 3C-SiC has better radiation resistance and its crystal structure remains relatively stable after irradiation.