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An empirical model has been developed to predict the effect of a thin, porous anodized aluminum film on a solid-state flexural plate wave (FPW) chemical vapor sensor. A method of defining a precise anodization region using photolithography was developed. Initial experiments have shown through static measurements that a downward shift on the order of 100 kHz in the 4 MHz resonant frequency of the FPW device can be detected after aluminum anodization. Linear regression techniques were used to develop a model to predict frequency shift for given anodization parameters. Anodization variables investigated were anodization voltage and electrolyte concentration. The measured device frequency can be used to determine material properties of the anodized film
Published in:
Ultrasonics Symposium, 1995. Proceedings., 1995 IEEE
(Volume:1
)
Date of Conference: 7-10 Nov 1995
- Page(s):
- 437 - 440 vol.1
- Meeting Date :
- 07 Nov 1995-10 Nov 1995
- ISSN :
- 1051-0117
- Print ISBN:
- 0-7803-2940-6
- INSPEC Accession Number:
- 5385032
- Conference Location :
- Seattle, WA
- Digital Object Identifier :
- 10.1109/ULTSYM.1995.495616
- Product Type:
- Conference Publications
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