Abstract
Although fibre Bragg gratings (FBGs) offer obvious potential for use in high-density, high-strain sensing applications, the adoption of this technology in the historically conservative aerospace industry has been slow. There are several contributing factors, one of which is variability in the reported performance of these sensors in harsh and fatigue prone environments. This paper reports on a comparative evaluation of the fatigue performance of FBG sensors written according to the same specifications using three different grating manufacturing processes: sensors written in stripped and re-coated fibres, sensors written during the fibre draw process and sensors written through fibre coating. Fatigue cycling of the fibres is provided by a customized electro-dynamically actuated loading assembly designed to provide high frequency and amplitude loading. Pre- and post-fatigue microscopic analysis and high-resolution transmission and reflection spectra scanning are conducted to investigate the fatigue performance of FBGs, the failure regions of fibres as well as any fatigue-related effects on the spectral profiles. It was found that because of the unique fabrication method, the sensors written through the fibre coating, also known as trans-jacket FBGs, show better fatigue performance than stripped and re-coated FBGs with greater control possible to tailor the optical reflection properties compared to gratings written in the draw tower. This emerging method for inscription of Type I gratings opens up the potential for mass production of higher reflectivity, apodised sensors with dense or complex array architectures which can be adopted as sensors for harsh environments such as in defence and aerospace industries.
Highlights
Fibre Bragg gratings (FBGs) have become one of the major elements in various fibre-optic devices over the past decades [1]
This paper presents data on a comparative evaluation of the overall fatigue performance and optical properties of a total of 45 unpackaged FBGs, 15 fabricated using each of the three processes
All of the trans-jacket gratings provided by the research provider survived the entire test schedule
Summary
Fibre Bragg gratings (FBGs) have become one of the major elements in various fibre-optic devices over the past decades [1]. FBGs are periodic variations in the refractive index of the core of the fibre. They are inscribed by first photosensitizing the glass and exposing the fibre core side on to laser light with a spatially modulated intensity pattern [2,3]. The Bragg wavelength is expressed as λB = 2ne f f Λ. Sensors 2019, 19, 3524 where λB is the Bragg wavelength, neff is the effective refractive index of the FBG and Λ is the modulation period of the index change. The Bragg wavelength is directly dependent on both the strain and temperature as shown in Equation (2),
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