Accession Number:

ADA334914

Title:

Pressure Sensor Arrays and Microactuators for Fluid Mechanics Research

Descriptive Note:

Final technical rept. 1 Jun 96-31 Aug 97

Corporate Author:

MICHIGAN UNIV ANN ARBOR DEPT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE

Personal Author(s):

Report Date:

1997-11-01

Pagination or Media Count:

22.0

Abstract:

A combined microactuatormicrosensor system has been developed using silicon micromachining techniques for use in high speed jets and control of screech in these jets. The 14 microns-thick electrostatic microactuator was fabricated and tested at the exit of a supersonic axisymmetric jet for the introduction of perturbations into the convectively unstable supersonic shear layer. It can be forced into mechanical resonance at frequencies of 514 kHz at an amplitude of greater then 70 microns, thus generating significant disturbances into the macro scale jet flow, and survive operation at speeds of 210 ms. These microactuators have survived hundreds of experiments in the harsh jet environment, and their performance matches or exceeds that of other macro actuators. An array of micromachined sound detectors for the detection of onset of jet screech has also been fabricated. The detectors use stress compensated PECVD silicon nitrideoxide membranes together with monocrystalline ion-implanted p silicon piezoresistors to achieve high sensitivity. They have a static sensitivity of 1.1 uVVPa with a 2 nonlinearity over a pressure range of 10kPa. A chip has been fabricated that supports an array of microactuators and sound detectors. Ongoing investigations are aimed at developing a technique to modify, and ultimately control, the feedback loop responsible for the creation of screech.

Subject Categories:

  • Acoustic Detection and Detectors
  • Fluid Mechanics
  • Electrical and Electronic Equipment

Distribution Statement:

APPROVED FOR PUBLIC RELEASE