Taiwan has a mountainous terrain. A lot of mountain tunnels were constructed to shorten the travel time between cities and accessibility of mountain area. However, Taiwan is seismically active, hence it is crucial to understand the seismic performance of these mountain tunnels, their maintenance needs, and the repair and recovery time if damages are induced during earthquakes. The objective of this study is to develop the seismic fragility curves for the mountain tunnels in Taiwan. This study uses FLAC 2D numerical software to simulate and analyze the seismic response of mountain tunnels. The Jiabao Tunnel in Taitung county was used as a baseline case. In addition to incorporating different influencing factors such as overburden depth and tunnel support types, input motions with different ground motion characteristics were used in the analyses. The relative displacement between the crown and the inverted arch , as well as the crown peak acceleration were selected as the tunnel damage indicators to establish the fragility curves for the mountain tunnels. The results indicate that different burial depths and tunnel support types can influence the probability of tunnel damage. This study preliminarily demonstrates how these factors alter the probability of damage of Taiwan's mountain tunnels subjected to seismic loading, aiming to assist future related research endeavors.