期刊
SENSORS
卷 21, 期 5, 页码 -出版社
MDPI
DOI: 10.3390/s21051680
关键词
fiber Bragg grating; regenerated fiber Bragg grating; embedded fiber Bragg grating; casting; temperature response; strain response; tensile testing
资金
- Deutsche Forschungsgemeinschaft (DFG) [272154571, RO 4145/3-2, KO 2111/11-2, VO 1487/11-2]
- Hochschule Munchen University of Applied Sciences (HM)
This study investigated the response of fiber Bragg gratings (FBGs) embedded in cast aluminum parts under thermal and mechanical load. Results showed good agreement with a theoretical model, and embedded FBGs showed no hysteresis and had reproducible sensor response under all conditions, making them suitable for creating metallic smart structures and packaged fiber optic sensors for harsh environments.
In this study, the response of fiber Bragg gratings (FBGs) embedded in cast aluminum parts under thermal and mechanical load were investigated. Several types of FBGs in different types of fibers were used in order to verify general applicability. To monitor a temperature-induced strain, an embedded regenerated FBG (RFBG) in a cast part was placed in a climatic chamber and heated up to 120 circle C within several cycles. The results show good agreement with a theoretical model, which consists of a shrink-fit model and temperature-dependent material parameters. Several cast parts with different types of FBGs were machined into tensile test specimens and tensile tests were executed. For the tensile tests, a cyclic procedure was chosen, which allowed us to distinguish between the elastic and plastic deformation of the specimen. An analytical model, which described the elastic part of the tensile test, was introduced and showed good agreement with the measurements. Embedded FBGs - integrated during the casting process - showed under all mechanical and thermal load conditions no hysteresis, a reproducible sensor response, and a high reliable operation, which is very important to create metallic smart structures and packaged fiber optic sensors for harsh environments.
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