PSI - Issue 28

N.A. Kosheleva et al. / Procedia Structural Integrity 28 (2020) 1883–1891 Author name / Structural Integrity Procedia 00 (2019) 000–000

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Di Sante, R., Donati, L., Troiani, E., Proli, P., 2014. Reliability and accuracy of embedded fiber Bragg grating sensors for strain monitoring in advanced composite structures. Metals and Materials International 20(3), 537–543. Scott, R., Vidakovic, M., Chikermane, S., McKinley, B., Sun, T., Banerji, P., Grattan, K., 2019. Encapsulation of Fiber Optic Sensors in 3D Printed Packages for Use in Civil Engineering Applications: A Preliminary Study. Sensors 19(7), 1689. Scott, R.H., Chikermane, S., Vidakovic, M., McKinley, B., Sun, T., Banerji, P., Grattan, K. T.V., 2019. Development of low cost packaged fibre optic sensors for use in reinforced concrete structures. Measurement 135, 617–624. Serovaev, G., Kosheleva, N., 2019. The study of internal structure of woven glass and carbon fiber reinforced composite materials with embedded fiber-optic sensors. Frattura ed Integrità Strutturale 14(51), 225–235. Taheri, S., 2019. A review on five key sensors for monitoring of concrete structures. Construction and Building Materials 204, 492–509. Tennyson, R. C., Mufti, A. A., Rizkalla, S., Tadros, G., Benmokrane, B., 2001. Structural health monitoring of innovative bridges in Canada with fiber optic sensors. Smart Materials and Structures 10(3), 560–573. Yun, Y.-W., Jang, I.-Y., Wang, W.-W., 2012. Early-age autogenous shrinkage of high-performance concrete columns by embedded Fiber Bragg Grating sensor. KSCE Journal of Civil Engineering 16(6), 967–973.