Low cost optical fibre based Fabry–Perot strain sensor production

Abstract

The production of Fabry–Perot-based optical fibre sensors has long been an iterative and labour-intensive process. This paper demonstrates the production of Fabry–Perot-based optical fibre strain sensors using chemical etching techniques. Utilizing hydrofluoric acid and single-mode optical fibres, a preferential etching mechanism was observed around the core portion of the fibres. These etched fibre ends were then spliced together successfully to form enclosed Fabry–Perot cavities between 18 and 60 µm in length. These sensors have then been deployed for strain monitoring and have been subjected to strains of up to 1400 με on tensile test specimens. Etched Fabry–Perot cavity lengths were monitored using a white light interferometry system based on a CCD spectrometer and an 850 nm super luminescent diode. A linear and repeatable response to these strain tests has been shown with negligible sensitivity to temperature.