Due to the special geographical location of Taiwan, hazards such as earthquakes and typhoons are frequent. According to statistics, from 1948 to 2019, typhoons occur 3.6 times per year, and earthquakes occur 0.5 time per year. Although there are fewer earthquakes than typhoons, the average social and economic losses caused by earthquakes each time are more serious. Such an environment background highlights the importance of disaster risk assessment. When assessing disaster risk, the space-time dynamic characteristics of risk are often ignored, and it is impossible to provide disaster prevention decisions on a more accurate space-time scale. In order to integrate space-time characteristics of population movement into risk assessment, Call Detail Record(CDR) data was used because it can provide more samples of real population dynamics at a lower cost. In this study, earthquake risks of the traffic in different time periods corridor was assessed to observe the space-time pattern, so that the lack of time dynamics in the past static disaster risk assessment can be improved. The results of the research show that the corridor exposure and risk value both rise sharply from 06:00, until it slows down at 12:00. It rose again and reached the highest value near 17:00, and then gradually decreases to the early morning of the next day. Zhongzheng Road, Zhongshan Road, and National Highway no.10 are the main corridors where the peak of risk occur. The space-time risk distribution of corridors is analyzed based on emerging hotspots. The two time windows, “03:00 - 08:00” and “11:00 - 17:00” show higher risk hotspot intensity, but the former hotspot appears later in the time trend, while the latter hotspot gradually Intensified. The data mining results of the disaster risk space-time patterns can improve risk awareness in Mitigation phase, which can be benefitial in the preparation of Simulation Exercises in Preparedness phase. In addition, it can also help plan the dispatch of equipment and Supplies on a more accurate space-time scale, as well as transportation planning to enhance local capabilities when facing disasters.