Acoustic field calculation for a compact barrel‐stave flextensional transducer array

Abstract

The boundary element method together with the finite element method is used to calculate the radiated acoustic field of a compact array of barrel‐stave flextensional transducers. At first, the surface vibration displacement distribution of one barrel‐stave transducer is obtained by the finite element method using the commercial software ANSYS. The calculation results are then imported into the boundary element calculation software SYSNOISE. At the frequency of 1400Hz, the radiated acoustic field and radiation impedance are calculated by the boundary element method for a planar array which is composed of three identical barrel‐stave flextensional transducers uniformly distributed on a circle with spacing much less than half wavelength. The calculation results show that the mutual interactions among elements are significant for the compact array. The mutual radiation resistance between two transducers is close to the self‐radiation resistance of the transducers. And the transmitting source level of the 3‐element array is 8.7dB higher than that of one transducer if the surface vibration velocities of the transducers in the array are the same as that of one transducer. The proposed technique can be used to predict the performance of a transmitting transducer array at the stage of preliminary design.