Relaxor Ferroelectric Single Crystal Based Hybrid Actuator for Underwater Acoustic Noise Generation

Abstract

This report details the development of a microfabricated pump for underwater acoustic noise generation. The goal of MicroHydraulic Transducer (MHT) technology is to provide high power density servohydraulic actilation systems that can be used in a variety of applications. Hydroacoustic actuation is a good application for such technology. The goal here is to develop an acoustic noise source capable of radiating approximately 0.25- 0.5W of acoustic power under water at frequencies ranging from 100-1000Hz. This translates to pressure and flow rate requirements of 15-30kPa and 300-500ml/s respectively. The MHT relies on the incorporation of discrete piezoelectric elements into a microfabricated device to produce compact high stiffness actuation at high frequencies. These piezoelectric elements used in conjunction with a piezoelectric piston enable the design of a stiff efficient electric to fluidic energy conversion mechanism with a high power density. The device relies on the DRIE fabrication of high-strength silicon membranes to form pistons with membrane tethers. A final device was built and tested and a maximum flow rate and pressure differential of 4ml/min and 350kPa were obtained. It is shown that suitable modifications will enable a future MHT device to match the pressure and flow rate requirements for underwater acoustic noise generation.

Document Details

Document Type

Technical Report

Publication Date

May 01, 2002

Accession Number

ADA417716

Entities

Tags