Magnesium alloys are known to be hard-forming materials at room temperature owing to their material structure. This study analyzes the optimal temperature conditions of warm-forming and the forming process by using a high-pressure laminating test and FM analysis, respectively. The effect of temperature on the fatigue limit was examined from the collected specimens by analyzing the material properties after the fatigue test. The material formed at a temperature of $230^{circ}C$ shows occasional defects, but the best forming quality was obtained at $270^{circ}C$. The optimal temperature for the forming process was found to be $250^{circ}C$ considering the material quality and thermal efficiency. The overall fatigue life of specimens decreases with an increase in the processing temperature. The fatigue limit of AZ31 formed at $250^{circ}C$ was approximately 100 MPa after $10^6$ cycles.