A fiber Bragg grating (FBG) strain patch specially adapted for long-term and high-strain applications has been developed and characterized. The design concept for the patch is based on a glass-fiber reinforced plastic (gfrp) carrier material. The developed concept for the FBG integration into the carrier material was derived from reliable integration procedure of FBG sensors into composite structures. The patches’ temperature sensitivity, strain gauge factor, fiber–matrix interface adhesion and fatigue behavior were characterized. As a result, FBG strain patches with linear temperature and strain behavior, as well as excellent fatigue resistance, were developed and can be used as part of a monitoring system for advanced composite materials in aerospace structures or wind turbine power plants.
References
[1]
Othonos, A.; Kalli, K. Fiber Bragg Gratings–Fundamentals and Applications in Telecommunications and Sensing; Artech House: Bosten & London, MA, USA, 1999; pp. 96–98.
[2]
Schlüter, V.G.; Kusche, N.; Habel, W.R. How Reliably do Fibre Bragg Grating Patches Perform as Strain Sensors?Presented at EWOFS 2010—4th European Workshop on Optical Fibre Sensors, Porto, Portugal, 8–10 September 2010. .
[3]
VDI/VDE/GESA Guideline 2660, Experimental Stress Analysis—Optical Strain Sensor based on fibre Bragg grating; Basics, Characteristics and its Testing, 2010. Available online: http://www.beuth.de (accessed on 11 September 2012).
[4]
Wenzel, M. Spannungsbildung und Relaxationsverhalten bei der Aush?rtung von Epoxidharzen (Tension formation and relaxation behavior of epoxy resins during curing process). Ph.D. Thesis, Technical University of Darmstadt, May 2005.
[5]
O’Dwyer, M.J.; Maistros, G.M.; James, S.W.; Tatam, R.P.; Partridge, I.K. Relating the state of cure to the real-time internal strain development in a curing composite using in-fibre Bragg gratings and dielectric sensors. J. Meas. Sci. Technol. 1998, 9, 1153–1158, doi:10.1088/0957-0233/9/8/002.
[6]
Antonucci, V.; Giordano, M.; Cusano, A.; Nasser, J.; Nicolais, L. Real time monitoring of cure and gelification of a thermoset matrix. J. Compos. Sci. Technol. 2006, 66, 3273–3280, doi:10.1016/j.compscitech.2005.07.009.
[7]
Hernández-Moreno, H.; Collombet, F.; Douchin, B.; Choqueuse, D.; Davies, P.; González Veláquez, J.L. Entire Life Time Monitoring of Filament Wound Composite Cylinders Using Bragg Grating Sensors: II. Process Monitoring. J. Appl. Compos. Mater. 2009, 16, 197–209, doi:10.1007/s10443-009-9088-4.
