论文信息 - Strain monitoring and fatigue life of Bragg grating fiber optic sensors

Strain monitoring and fatigue life of Bragg grating fiber optic sensors

The number of advanced senors such as optical fiber sensors has exhibited tremendous growth in recent years. Optical fiber sensors, which are dielectric and chemically inert, possess characteristics that are attractive for aerospace applications. These characteristics include small size, immunity to Electromagnetic (EM) and radio frequency (RF) interference, solid state electronics reliability, geometric versatility and flexibility, and multi-parametric sensitivity. In this paper in-fiber Bragg grating fiber optic sensors are employed as strain sensors. The output of the fiber optic sensor is evaluated against currently employed sensors, resistance strain gauges and a photoelastic coating, for sensitivity, accuracy, reliability, and fatigue durability. This experimental study, which employs a tensile specimen with bonded sensors and sensors embedded between the host material and a photoelastic coating, also illustrates the reduced intrusiveness of embedded optical fiber sensors as compared to resistance strain gauges.

Nezih Mrad | Sherri Sparling | Jeremy Laliberte

[1] R. Measures,et al. Fiber-optic Bragg grating sensors for bridge monitoring , 1997 .

[2] Eric Udd,et al. Transverse fiber grating strain sensors based on dual overlaid fiber gratings on polarization-preserving fibers , 1998, Smart Structures.

[3] Yunjiang Rao,et al. Simultaneous strain and temperature measurement using an integrated fiber Bragg grating/extrinsic Fabry-Perot sensor , 1998, Smart Structures.

[4] J P Dakin,et al. Multiplexed and distributed optical fibre sensor systems , 1987 .

[5] A J Rogers,et al. Simultaneous strain and temperature sensing with photogenerated in-fiber gratings. , 1995, Optics letters.

[6] Peter David Foote,et al. Fiber Bragg grating strain gauge rosette with temperature compensation , 1998, Smart Structures.

[7] Raymond M. Measures,et al. Fiber-Optic Strain Sensors for Smart Structures , 1990 .

[8] F. W. Hecker,et al. Computer-Aided Measurement of Relative Retardations in Plane Photoelasticity , 1986 .

[9] Yu-Lung Lo,et al. USING IN-FIBER BRAGG-GRATING SENSORS FOR MEASURING AXIAL STRAIN AND TEMPERATURE SIMULTANEOUSLY ON SURFACES OF STRUCTURES , 1998 .