Mechanical vibration will cause fatigue failure, induced mainly by unbalanced revolution of rotational parts. In order to analyze the effects of vibration to mechanical structure, this paper combined vibration measuring with finite element methods (FEM) to evaluate the fatigue life of cantilever beams. Vibration is created using a cool fan by setting unbalanced revolutions. The measured values of vibration are applied not only in identifying the quality of a fan but also in calculating the dynamic loadings generated by unbalanced revolutions. A cantilever beam was designed to measure the vibration generated by a cool fan. ANSYS software is used to analyze the modals of the structure for finding out the natural frequencies of structure. The measured system was designed by LabView software for acquiring vibration signals including time and frequency domains. The frequency response function (FRF) of the cantilever beam was derived to formulate the relationship between the vibration accelerations against the dynamic loadings. The stress amplitudes are evaluated by ANSYS analysis according to the dynamic loadings obtained by the FRF. The studied results show that the vibration loadings induced by the fan are too small, so that the cantilever beam would not fail. However, the proposed methods of fatigue life evaluation of vibration may be useful in vibration-based predictive maintenance.