0–3 Piezoelectric composites for large area hydrophones

G. M. Garner; N. M. Shorrocks; R. W. Whatmore; M. T. Goosey; P. Seth; F. W. Ainger

doi:10.1080/00150198908017341

0–3 Piezoelectric composites for large area hydrophones

G. M. Garner
, N. M. Shorrocks
, R. W. Whatmore
, M. T. Goosey
, P. Seth
, F. W. Ainger

Tyndall Micronano Electronics

telent Technology Services Ltd.

Research output: Other output › peer-review

Abstract

Piezoelectric ceramics exhibit relatively poor properties for use in large area hydrophones, in particular poor acoustic match to water, poor resistance to explosive shock, high densities and in the case of the PZT family of ceramics, poor hydrostatic voltage sensitivities. Dispersions of powders in polymers with 0–3 connectivity offer the possbility of fabricating large area transducers at low cost. The appropriate figures-of-merit to use in this application for optimising composite properties are discussed in the light of available amplifiers. Modified lead titanate 0–3 composites have been produced reproducibly with d_h.g_h of up to 1.8 ϗ 10~¹²Pa^1/2 (g_h = 82mVmN^-1). The effects of processing variables and other parameters on composite properties are discussed.

Original language	English
Number of pages	8
Edition	1
Volume	93
DOIs	https://doi.org/10.1080/00150198908017341
Publication status	Published - 1 May 1989

Publication series

Name	Ferroelectrics
Publisher	Taylor and Francis Ltd.
ISSN (Print)	0015-0193

Keywords

ceramic
composite
hydrophone
lead titanate
piezoelectric

Access to Document

10.1080/00150198908017341

Cite this

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title = "0–3 Piezoelectric composites for large area hydrophones",

abstract = "Piezoelectric ceramics exhibit relatively poor properties for use in large area hydrophones, in particular poor acoustic match to water, poor resistance to explosive shock, high densities and in the case of the PZT family of ceramics, poor hydrostatic voltage sensitivities. Dispersions of powders in polymers with 0–3 connectivity offer the possbility of fabricating large area transducers at low cost. The appropriate figures-of-merit to use in this application for optimising composite properties are discussed in the light of available amplifiers. Modified lead titanate 0–3 composites have been produced reproducibly with dh.gh of up to 1.8 ϗ 10\textasciitilde{}12Pa1/2 (gh = 82mVmN-1). The effects of processing variables and other parameters on composite properties are discussed.",

keywords = "ceramic, composite, hydrophone, lead titanate, piezoelectric",

author = "Garner, \{G. M.\} and Shorrocks, \{N. M.\} and Whatmore, \{R. W.\} and Goosey, \{M. T.\} and P. Seth and Ainger, \{F. W.\}",

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T1 - 0–3 Piezoelectric composites for large area hydrophones

AU - Garner, G. M.

AU - Shorrocks, N. M.

AU - Whatmore, R. W.

AU - Goosey, M. T.

AU - Seth, P.

AU - Ainger, F. W.

PY - 1989/5/1

Y1 - 1989/5/1

N2 - Piezoelectric ceramics exhibit relatively poor properties for use in large area hydrophones, in particular poor acoustic match to water, poor resistance to explosive shock, high densities and in the case of the PZT family of ceramics, poor hydrostatic voltage sensitivities. Dispersions of powders in polymers with 0–3 connectivity offer the possbility of fabricating large area transducers at low cost. The appropriate figures-of-merit to use in this application for optimising composite properties are discussed in the light of available amplifiers. Modified lead titanate 0–3 composites have been produced reproducibly with dh.gh of up to 1.8 ϗ 10~12Pa1/2 (gh = 82mVmN-1). The effects of processing variables and other parameters on composite properties are discussed.

AB - Piezoelectric ceramics exhibit relatively poor properties for use in large area hydrophones, in particular poor acoustic match to water, poor resistance to explosive shock, high densities and in the case of the PZT family of ceramics, poor hydrostatic voltage sensitivities. Dispersions of powders in polymers with 0–3 connectivity offer the possbility of fabricating large area transducers at low cost. The appropriate figures-of-merit to use in this application for optimising composite properties are discussed in the light of available amplifiers. Modified lead titanate 0–3 composites have been produced reproducibly with dh.gh of up to 1.8 ϗ 10~12Pa1/2 (gh = 82mVmN-1). The effects of processing variables and other parameters on composite properties are discussed.

KW - ceramic

KW - composite

KW - hydrophone

KW - lead titanate

KW - piezoelectric

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M3 - Other output

AN - SCOPUS:84963386939

VL - 93

T3 - Ferroelectrics

ER -

0–3 Piezoelectric composites for large area hydrophones

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