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There is a significant need for wireless sensor systems capable of operation up to 1100°C and beyond, in abrasive or corrosive harsh environments, in particular for the energy, steel, aerospace, oil and gas exploration industries. These environments and applications preclude the use of batteries and normally require wireless and multiple sensor interrogation. The University of Maine and Environetix...
This paper reviews current progress in the area of wireless microwave acoustic sensor technology, and discusses advances in wireless interrogation systems that can operate in harsh environments. The use of wireless, battery-free, low maintenance surface acoustic wave (SAW) sensors has been successfully demonstrated in applications including high temperature turbine engines and inflatable aerospace...
High temperature acoustic wave (AW) devices capable of operating above 600degC and in hostile environments have opened potential applications for monitoring industrial processes, power plants, and aerospace systems. The authors have reported on the development of thin film electrodes and protective ceramic layers to allow surface acoustic wave (SAW) device operation up to 800degC on langasite (LGS)...
Sensor operation in harsh environments up to 1000degC requires robust packages including stable electrodes and protective coatings. We have developed nanostructured ultra-thin (< 100 nm) Pt-10%Rh / ZrO2 electrode structures grown by e-beam co-evaporation that operate at temperatures approaching 1000degC. X-ray diffraction (XRD), resistivity, and electron microscopy (EM) studies indicate incorporation...
This work reports on the research and development of high temperature (HT) thin electrodes for use in acoustic wave sensor platforms up to 1000degC. Previously developed thin film platinum (Pt) electrodes limits HT operation due to a de-wetting phenomena, which results in loss of Pt film electrical continuity and device failure above 650mnplus750degC. To address the problem, co-deposition of Pt/rhodium...
The introduction of piezoelectric crystals capable of acoustic wave (AW) excitation at high temperatures (> 600degC) has opened new possibilities for harsh environment applications, such as combustion engines, industrial processes, and gas/oil extraction. Significant remaining challenges are the fabrication of electrode thin films as well as appropriate packaging capable of withstanding such harsh...
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