DocumentCode
2271808
Title
Fiber optic distributed strain, acoustic emission, and moisture detection sensors for health maintenance [aircraft testing applications]
Author
Rice, Trevor ; Duncan, Roger ; Gifford, Dawn ; Childers, Brooks ; Cooper, Kevin ; Furrow, Keith
Author_Institution
Luna Innovations, Blacksburg, VA, USA
fYear
2003
fDate
22-25 Sept. 2003
Firstpage
505
Lastpage
514
Abstract
Optical fiber sensors are rapidly emerging as viable alternative´s to electrical sensors as effective means of health monitoring in harsh environments. These sensors are tolerant to extreme temperature, EMI, shock and vibration, and offer reduced weight and increased accuracy over conventional instrumentation. As a result, these sensors have begun to replace conventional sensors in harsh environment applications. This paper discusses the development and demonstration of three optical fiber sensor technologies - distributed Bragg grating strain, interferometer-based acoustic emission, and long period grating moisture detection. The Bragg strain technology allows multiplexing of thousands of single-point strain sensors along a single optical fiber. Optical fiber acoustic emission sensors can be used to determine crack growth in metal components or delaminations in composite structures. Long period grating moisture sensors are used to prevent corrosion by detecting moisture and humidity under lap joints. Continued development of these sensor technologies for non-destructive evaluation and results are presented in this paper.
Keywords
Bragg gratings; acoustic transducers; aircraft maintenance; aircraft testing; condition monitoring; distributed sensors; fibre optic sensors; moisture measurement; strain sensors; aircraft health maintenance; aircraft testing; composite structure delamination; distributed Bragg grating sensors; distributed sensors; fiber optic sensors; harsh environment health monitoring; humidity detectors; interferometer-based acoustic emission sensors; long period grating moisture detection; metal component crack growth; moisture detection sensors; optical fiber sensors; strain sensors; Acoustic emission; Acoustic sensors; Acoustic signal detection; Acoustic testing; Aircraft; Capacitive sensors; Moisture; Optical fiber sensors; Optical fibers; Optical sensors;
fLanguage
English
Publisher
ieee
Conference_Titel
AUTOTESTCON 2003. IEEE Systems Readiness Technology Conference. Proceedings
ISSN
1080-7725
Print_ISBN
0-7803-7837-7
Type
conf
DOI
10.1109/AUTEST.2003.1243624
Filename
1243624
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