In terms of Lyapunov's direct method, this paper proposed stability conditions of fuzzy logic control (FLC) and its application for structural and mechanical systems approximated by Tagagi-Sugeno (T-S) fuzzy model. External forces or disturbances are not considered in these controlled systems. In the design controller procedure, a parallel distributed compensation (PDC) scheme was utilized to construct a global FLC by blending all linear local state feedback controllers. A stability criterion was carried out not only for the fuzzy model but also for a real mechanical system. Furthermore, this controller design problem can be reduced to an linear matrix inequalities (LMI) problems by Schur Complements and efficient interior-point algorithms are now available in Matlab toolbox to solve this problem. Simulation results show the utility of the FLC design method based on LMI's proposed in this paper.