Abstract
A novel fiber Bragg grating (FBG) acoustic emission (AE) sensor based on coupling cone structure is proposed in this paper, which is flexible and reusable. The sensor is fabricated by additive manufacturing technology. The numerical modeling of the coupling cone structure was performed using finite element analysis. The influence of the coupling cone angle and material on the AE detection performance was studied. The main parameters of the coupling cone structure are determined. The AE detection of material tensile tests was studied by edge-filter-demodulation of spectrum technology. The experimental results demonstrated that the coupling cone FBG AE (Cone-FBG-AE) sensor has advantages of high sensitivity, flexibility and adjustable positioning, and can be reused. It realizes real-time monitoring of AE signals in the tensile process of the specimen, which is consistent with the effect of the resonant AE sensor. The Cone-FBG-AE sensor has great application value in the fields of health monitoring, such as aero-engines, microcracks of structural defects.
Published Version
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