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2020 | OriginalPaper | Chapter

Reliability and Lifetime Estimations for Field-Aged Optical Cable

Authors : Vladimir Burdin, Vladimir Andreev, Anton Bourdine, Michael Dashkov, Anton Nizhgorodov

Published in: Internet of Things, Smart Spaces, and Next Generation Networks and Systems

Publisher: Springer International Publishing

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Abstract

The method for predicting the residual lifetime of a field aged optical cable with based on the test results of its samples taken from a cable line is considered. The test results of the proposed method are presented on the example of four samples of optical cables from cable lines installed in different years. According to the test results, the need to control the strength of the optical fibers of the cable line to predict the lifetime of the optical cable is confirmed.

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Literature
1.
Zelenyak-Kudreiko, I.V., Korshunov, V.N., Larin, YuT: The reliability parameters of optical cables. Telecommunication 1, 25–28 (1994)
2.
Petrov, YuM: Reliability of FOCL-VL functioning at low ambient temperatures. Electrosvyaz 3, 14–15 (1999)
3.
Vorontsov, A.S., Korshunov, V.N., Tsym, AYu.: Evalation of fiber optic durability. Telecommunication 2, 9–13 (1999)
4.
Larin, YuT: Optical Cables. Prestige Publisher, Moscow (2006)
5.
Larin, YuT: Comparative analysis of two approaches to the reliability of optical cables. Sci. Technol. 315(2), 3–7 (2009)
6.
Optical fibres - Reliability - Power law theory. IEC/TR 62048, 70 (2014)
7.
Supplement 59 to ITU-T G-series Recommendations Guidance on optical fibre and cable reliability, G series – Supplement 59, 02 (2018)
8.
Koga H., Kuwabara T., Mitsunaga Y.: Future maintenance systems for optical fiber cables. In: ICC 1991 Proceedings, pp. 0323–0329 (1991)
9.
Kurashima, T., Horiguchi, T., Yoshizawa, N., Tada, H., Tateda, M.: Measurement of distributed strain due to laying and recovery of submarine optical fiber cable. Appl. Opt. 30(3), 334–337 (1991)CrossRef
10.
Kurashima, T., Horiguchi, T., Izumita, H., Furukawa, S.I., Koyamada, Y.: Brillouin optical-fiber time domain reflectometry. IEICE Trans. Commun. E76-B(4), 382–390 (1993)
11.
Sankawa, I., Koyamada, Y., Furukawa, S.I., Horiguchi, T., Tomita, N., Wakui, Y.: Optical fiber line surveillance system for preventive maintenance based on fiber strain and loss monitoring. IEICE Trans. Commun. E76-B(4), 402–409 (1993)
12.
BOTDR Measurement Techniques and Brillouin Backscatter Characteristics of Corning Single-Mode Optical Fibers. Corning WP4259, 1–9 (2015)
13.
Salleh, M.F.M., Zakaria, Z.: Optical fiber bending detection on long distance OPGW using OTDR. Telkomnika 13(3), 889–893 (2015)CrossRef
14.
Burdin, V.A.: Methods of optical fiber curvature measurement on loose-tube optical cable delivery length. In: SPIE Proceedings, vol. 9807, p. 98071A (2016)
15.
Evans, A.G., Wiederhorn, S.M.: Proof testing of ceramic materials an analytical basis for failure prediction. Int. J. Fract. 10(3), 379–392 (1974)CrossRef
16.
Mitsunaga, Y., Katsuyama, Y., Kobayashi, H., Ishida, Y.: Failure prediction for long length optical fiber based on proof testing. J. Appl. Phys. 53(7), 4847–4853 (1982)CrossRef
17.
Semjonov, S., Scott Glaesemann, G.: High-speed tensile testing of optical fibers—new understanding for reliability prediction. In: Suhir, E., Lee, Y.C., Wong, C.P. (eds.) Micro and Opto-Electronic Materials and Structures: Physics, Mechanics, Design, Reliability. Packaging. Springer, Boston (2007). https://​doi.​org/​10.​1007/​0-387-32989-7_​18CrossRef
18.
Hanson, T.A., Glaesemann, G.S.: Incorporation multi-region crack growth into mechanical reliability predictions for optical fiber. J. Mat. Sci. 32, 5305–5311 (1997)CrossRef
19.
Da Silva, A.C., Hirose, F.N., Neto, J.A.M., Furtado, J.M.I.: Optimization of loose tube optical cable manufacture process based on optical fiber mechanical behavior. In: Proceedings of the 50th IWCS, pp. 249–252 (2001)
20.
Glaesemann G.S.: Optical fiber mechanical reliability. Review of research at corning’s optical fiber strength laboratory. Corning WP8002, 1–62 (2017)
21.
Mitsunaga, Y., Katsuyama, Y., Ishida, Y.: Reliability assurance for long-length optical fibre based on proof testing. Electron. Lett. 17(16), 567–568 (1981)CrossRef
22.
Ritter, J.E., Jakus, K.: Applicability of crack velocity data to lifetime predictions for fused silica fibers. J. Am. Ceramic Soc. 60(3–4), 171–171 (1977)
23.
Mazzarese D., Kinard M., Konstadinidis K.: Long term cable reliability design criteria. In: Proceedings of the 62nd International Wire and Cable Symposium IWCS, pp. 363–366 (2013)
24.
Matthewson, M.J., Kurkjian, C.R., Gulati, S.T.: Strength measurement of optical fibers in bending. J. Am. Ceram. Soc. 69(11), 815–821 (1986)CrossRef
25.
Gadonna, M., Griffioen, W., et al.: Reliability of Optical Fibres and Components. Final Report of COST 246. Springer, London (1999). 10.1007/978-1-4471-0545-9
Metadata
Title
Reliability and Lifetime Estimations for Field-Aged Optical Cable
Authors
Vladimir Burdin
Vladimir Andreev
Anton Bourdine
Michael Dashkov
Anton Nizhgorodov
Copyright Year
2020
Book
Internet of Things, Smart Spaces, and Next Generation Networks and Systems

Print ISBN: 978-3-030-65728-4

Electronic ISBN: 978-3-030-65729-1

Copyright Year: 2020

DOI
https://doi.org/10.1007/978-3-030-65729-1_32

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