嵌套型C型管声子晶体低频带隙特性研究OA北大核心CSTPCD

A two-dimensional Helmhotlz resonator phononic crystal structure composed of nested C-type tubes is proposed.The band gaps and formation mechanism were analyzed using finite element method.Compared with the traditional C-type tubes,the novel structure has better low-frequency characteristics,which can possess band gaps below 50 Hz.The structure was equivalent to the model of inductorcapacitor circuit,and the estimated formula of band gaps were deduced.The results show that the band gaps calculated by the finite element method are consistent with numerical calculations.The effects of structure parameters on the band gaps were studied.The numerical results show that the band gaps can be modulated in an even wider frequency range by changing the structure parameters,such as the number of tubes and the filling rate.