Combined compression-tension strain sensor over 1 mu epsilon-20 m epsilon by using non-uniform multiple-core-offset fiber

摘要

Combined compression-tension strain sensors with a range of 1 micro to a maximum of 20 milli-strain based on non-uniform multiple-core-offset fibers have been realized. A large strain range with high resolution is ideal for monitoring deformation of steel structures where a large compressive and tensile strain co-exists. Thanks to core-offset splicing of non-uniform fiber segments, unique asymmetric wave-guides reduce the degeneracy of each section, realizing a reflection spectrum with a large range and irregular shape. Furthermore, enhanced multi-mode interference induced. from high-order modes in silica cladding and air results in the large strain range with high resolution in both compression and tension regions. The sensitivity of 7.93 pm/mu epsilon with a strain step of 1.7 mu epsilon is achieved for micro-strain measurement. For milli-strain measurement, a strain coefficient of 1.298 nm/m epsilon over a tensile strain of 13.2 m epsilon is realized; in the compressive strain case, a coefficient of -1.251 nm/m epsilon over compression of 20.1 m epsilon is observed. (C) 2020 Optical Society of America