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ITO-Nanocomposite Thin Film Strain Gages with Low TCR

Published online by Cambridge University Press:  01 February 2011

Ximing Chen  and
Ximing Chen
Ximing Chen
Affiliation:
chenx2@egr.uri.edu, University of Rhode Island, Chemical Engineering, 205 Crawford Hall, 16 Greenhouse rd, Kingston, RI, 02881, United States, 401-874-5076
Ximing Chen
Affiliation:
chenx2@egr.uri.edu, University of Rhode Island, Chemical Engineering, Kingston, RI, 02881, United States
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Abstract

Dynamic strain gages based on alloys of indium tin oxide (ITO) have been developed to monitor the structural integrity of gas turbine engine components operating at temperatures in excess of 1200 °C. Static strain measurements in these harsh environments have been hampered by apparent strain effects that can be mitigated by employing sensors with a low temperature coefficient of resistance (TCR). Since refractory metals typically exhibit a positive TCR and semiconductors such as ITO exhibit a negative TCR, an optimal combination of materials could produce a sensor with little or no apparent strain. These materials were combined in a single strain gage element, in which phase separation occurred at very small length scales. Specifically, nanocomposite strain elements comprised of ITO/(Pt, Pd, W, NiCoCrAlY, Ni and Ir) combinatorial libraries were prepared by co-sputtering from ITO and refractory metal targets onto alumina constant strain beams. TCR was measured from room temperature to 1100 °C and the piezoresistive response of the more promising combinations was measured at strain levels approaching 1000 μm/m and the chemical composition of the most promising combinatorial libraries was analyzed by SEM/EDS. Preliminary results indicated that a strain gage based on an ITO/platinum (12% ITO: 88% Pt) nanocomposite was fabricated with a near zero TCR over the temperature range 500-1100 °C. The gage factor of this nanocomposite remained unchanged (∼-26.0) compared to that of ITO and thus, it appears that a simple additive mixture rule does not apply here and that other physics are controlling the piezoresistive response in these materials.

Keywords

thin filmsensorsputtering
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 1024: Symposium A – Combinatorial Methods for High-Throughput Materials Science , 2007 , 1024-A05-06
Copyright
Copyright © Materials Research Society 2008

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