Cross-layerly embedded FBG in carbon fiber composites for self-modulated, intensity referenced and temperature insensitive microdisplacement measurement
•A novel packaging structure with an FBG cross-layerly embedded in carbon fiber composites.•It is selfmodulated and intensity referenced.•It is temperature insensitive.•It has good reproducibility. A novel temperature insensitive and intensity modulated microdisplacement sensor is demonstrated by cr...
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| Published in | Sensors and actuators. A. Physical. Vol. 199; pp. 250 - 253 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier B.V
01.09.2013
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0924-4247 1873-3069 |
| DOI | 10.1016/j.sna.2013.05.029 |
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| Abstract | •A novel packaging structure with an FBG cross-layerly embedded in carbon fiber composites.•It is selfmodulated and intensity referenced.•It is temperature insensitive.•It has good reproducibility.
A novel temperature insensitive and intensity modulated microdisplacement sensor is demonstrated by cross-layerly embedding an FBG in carbon fiber composites. The reflection spectrum of the FBG is selfmodulated to be chirped spectrum if a microdisplacement is applied to the center of the sensor structure. By monitoring the optical power change due to the above chirped spectrum variation, the microdisplacement can be measured. Experimental results show that there are quasilinear relationships between the microdisplacement and optical power, the maximum measurement resolution of the sensor reaches 10.7μm within the displacement range of 0–1050μm, and the dynamic measurement range is within the range of 0–200Hz. |
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| AbstractList | A novel temperature insensitive and intensity modulated microdisplacement sensor is demonstrated by cross-layerly embedding an FBG in carbon fiber composites. The reflection spectrum of the FBG is selfmodulated to be chirped spectrum if a microdisplacement is applied to the center of the sensor structure. By monitoring the optical power change due to the above chirped spectrum variation, the microdisplacement can be measured. Experimental results show that there are quasilinear relationships between the microdisplacement and optical power, the maximum measurement resolution of the sensor reaches 10.7μm within the displacement range of 0–1050μm, and the dynamic measurement range is within the range of 0–200Hz. •A novel packaging structure with an FBG cross-layerly embedded in carbon fiber composites.•It is selfmodulated and intensity referenced.•It is temperature insensitive.•It has good reproducibility. A novel temperature insensitive and intensity modulated microdisplacement sensor is demonstrated by cross-layerly embedding an FBG in carbon fiber composites. The reflection spectrum of the FBG is selfmodulated to be chirped spectrum if a microdisplacement is applied to the center of the sensor structure. By monitoring the optical power change due to the above chirped spectrum variation, the microdisplacement can be measured. Experimental results show that there are quasilinear relationships between the microdisplacement and optical power, the maximum measurement resolution of the sensor reaches 10.7μm within the displacement range of 0–1050μm, and the dynamic measurement range is within the range of 0–200Hz. A novel temperature insensitive and intensity modulated microdisplacement sensor is demonstrated by cross-layerly embedding an FBG in carbon fiber composites. The reflection spectrum of the FBG is selfmodulated to be chirped spectrum if a microdisplacement is applied to the center of the sensor structure. By monitoring the optical power change due to the above chirped spectrum variation, the microdisplacement can be measured. Experimental results show that there are quasilinear relationships between the microdisplacement and optical power, the maximum measurement resolution of the sensor reaches 10.7 mu m within the displacement range of 0a1050 mu m, and the dynamic measurement range is within the range of 0a200 Hz. A novel temperature insensitive and intensity modulated microdisplacement sensor is demonstrated by cross-layerly embedding an FBG in carbon fiber composites. The reflection spectrum of the FBC is selfmodulated to be chirped spectrum if a microdisplacement is applied to the center of the sensor structure. By monitoring the optical power change due to the above chirped spectrum variation, the microdisplacement can be measured. Experimental results show that there are quasilinear relationships between the microdisplacement and optical power, the maximum measurement resolution of the sensor reaches 10.7 mu m within the displacement range of 0-1050 mu m, and the dynamic measurement range is within the range of 0-200 Hz. |
| Author | Gong, Yandong Wang, Yixin Dong, Bo Xiao, Long |
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| Cites_doi | 10.1016/j.sna.2009.12.029 10.1088/0964-1726/10/5/404 10.1016/S0924-4247(98)00075-2 10.1016/j.sna.2009.11.003 10.1016/j.sna.2010.10.010 10.1063/1.3097187 10.1109/LPT.2010.2046630 10.1016/j.sna.2005.11.005 10.1016/j.optcom.2005.10.004 10.1016/j.optlaseng.2009.08.008 10.1364/JOSAB.28.002332 10.1088/0964-1726/14/2/N01 10.1364/AO.45.007767 |
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| SubjectTerms | Actuators Carbon fiber composites Carbon fibers Displacement Dynamics Embedded FBG Microdisplacement Monitoring Reflection Sensors temperature |
| Title | Cross-layerly embedded FBG in carbon fiber composites for self-modulated, intensity referenced and temperature insensitive microdisplacement measurement |
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