Title :
Self-Repairing Packaged Strain Sensor With High Repeatability
Author :
Song, Young ; Peters, Kara
Author_Institution :
Dept. of Mech. & Aerosp. Eng., North Carolina State Univ., Raleigh, NC, USA
Abstract :
We present experimental demonstrations of a self-repairing polymer waveguide strain sensor packaged in a polyimide capillary. The waveguide is fabricated between two multi-mode optical fibers through an ultraviolet curable resin and operates as a strain sensor by interrogation of the infrared power transmission through the waveguide. The packaging improves the performance of the sensor as compared to a previous unpackaged version, by removing previous “no-response” zones. The resulting sensor output is monotonic throughout the measurement range. The hysteresis in the sensor behavior among multiple loading cycles is also significantly reduced. A jump in the sensor output voltage is observed after the sensor self-repair process, which presents challenges for calibration of the sensor.
Keywords :
calibration; fibre optic sensors; hysteresis; maintenance engineering; microwave power transmission; packaging; polymer fibres; resins; strain sensors; calibration; hysteresis; infrared power transmission; loading cycle; monotonic throughout; multimode optical fiber; polyimide capillary; polymer waveguide; repeatability; self-repair packaged strain sensor; ultraviolet curable resin; Electron tubes; Loading; Optical waveguides; Polyimides; Resins; Strain; Polymer waveguide; self-healing; self-writing waveguide; strain sensor;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2012.2210787
