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Residual stress diagnosis in jacketed optical fibres by a pulse delay technique

Residual stress diagnosis in jacketed optical fibres by a pulse delay technique
Residual stress diagnosis in jacketed optical fibres by a pulse delay technique
The application of a secondary jacketing material such as nylon and subsequent incorporation of a fibre into a cable produces a level of residual stress within the fibre which depends upon the materials, cable structure and manufacturing method. The remaining tension or compression in the cabled fibre is of some importance to cable designers since ideally the fibre should be neutrally stressed if static fatigue and microbending effects are to be avoided. We have found that the precise measurement of the transit time of a pulse within the fibre provides a powerful diagnostic tool for residual longitudinal stress assessment, being capable of detecting a tension as low as a few g.wt in a km length of fibre. We report here the development of the technique, its calibration and the results of stress tests on jacketed fibres.
Conduit, A.J.
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Hartog, A.H.
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Payne, D.N.
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Conduit, A.J.
0e67eb8c-ec99-4af0-8958-b3a8fa99db81
Hartog, A.H.
086d3839-ad46-4490-997e-3fded0a9b7f1
Payne, D.N.
4f592b24-707f-456e-b2c6-8a6f750e296d

Conduit, A.J., Hartog, A.H. and Payne, D.N. (1979) Residual stress diagnosis in jacketed optical fibres by a pulse delay technique. 5th European Conference and Exhibition on Optical Communication (ECOC), Amsterdam, Netherlands. 17 - 19 Sep 1979.

Record type: Conference or Workshop Item (Paper)

Abstract

The application of a secondary jacketing material such as nylon and subsequent incorporation of a fibre into a cable produces a level of residual stress within the fibre which depends upon the materials, cable structure and manufacturing method. The remaining tension or compression in the cabled fibre is of some importance to cable designers since ideally the fibre should be neutrally stressed if static fatigue and microbending effects are to be avoided. We have found that the precise measurement of the transit time of a pulse within the fibre provides a powerful diagnostic tool for residual longitudinal stress assessment, being capable of detecting a tension as low as a few g.wt in a km length of fibre. We report here the development of the technique, its calibration and the results of stress tests on jacketed fibres.

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Published date: 1979
Venue - Dates: 5th European Conference and Exhibition on Optical Communication (ECOC), Amsterdam, Netherlands, 1979-09-17 - 1979-09-19
Organisations: Optoelectronics Research Centre
Learn more about Optoelectronics Research Centre research

Identifiers

Local EPrints ID: 77724
URI: http://eprints.soton.ac.uk/id/eprint/77724
PURE UUID: ae922e9a-31d1-410b-a28a-89e764b57197

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Date deposited: 11 Mar 2010
Last modified: 13 Mar 2024 23:58

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Contributors

Author: A.J. Conduit
Author: A.H. Hartog
Author: D.N. Payne

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