Sensor Systems for Measuring Force and Temperature with Fiber-Optic Bragg Gratings Embedded in Composite Materials
Kalizhanova A. Kozbakova A. Kunelbayev M. Aitkulov Z. Utegenova A. Imanbekova U.
August 2024Multidisciplinary Digital Publishing Institute (MDPI)
Journal of Composites Science
2024#8Issue 8
Currently, there is a lot of interest in smart sensors and integrated composite materials in various industries such as construction, aviation, automobile, medical, information technology, communication, and manufacturing. Here, a new conceptual design for a force and temperature sensor system is developed using fiber-optic Bragg grating sensors embedded within composite materials, and a mathematical model is proposed that allows one to estimate strain and temperature based on signals obtained from the optical Bragg gratings. This is important for understanding the behaviors of sensors under different conditions and for creating effective monitoring systems. Describing the strain gradient distribution, especially considering different materials with different Young’s modulus values, provides insight into how different materials respond to applied forces and temperature changes. The shape of the strain gradient distribution was obtained, which is a quadratic function with a maximum value of 1500 µ, with a maximum value at the center of the lattice and a symmetrically decreasing strain value with distance from the central part of the fiber Bragg grating. With the axial strain at the installation site of the Bragg grating sensor under applied force values ranging from 10 to 11 N, the change in strain was linear. As a result of theoretical research, it was found that the developed system with fiber-optic sensors based on Bragg gratings embedded in composite materials is resistant to external influences and temperature changes.
chirp , composite material , fiber-optic Bragg sensor , force and temperature measurements , polymethyl methacrylate
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Institute of Information and Computational Technologies CS MSHE RK, Almaty, 050010, Kazakhstan
Department IT Engineering, Almaty University of Energy and Communications Named after G. Daukeyev, Almaty, 050013, Kazakhstan
Department Information Technology, Almaty Technological University, Almaty, 050013, Kazakhstan
Department Information Systems, Kazakh National Women’s Teacher Training University, Almaty, 050000, Kazakhstan
Institute of Information and Computational Technologies CS MSHE RK
Department IT Engineering
Department Information Technology
Department Information Systems
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