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Mapping the thermal distribution within a silica preform tube using regenerated fibre Bragg gratings |
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| Authors: | Mattias L. Åslund John Canning Albert Canagasabey Roberson Assis de Oliveira Yang Liu Kevin Cook Gang-Ding Peng |
| Affiliation: | 1. Interdisciplinary Photonics Laboratories (iPL), School of Chemistry, University of Sydney, 2006 NSW, Australia;2. School of Electrical Engineering and Telecommunications, University of New South Wales, 2052 NSW, Australia;3. AB Volvo 3P-PD Advanced Engineering – Curitiba, Av. Juscelino K. de Oliveira, 2600, CIC, 81260-900 Curitiba, Paraná, Brazil |
| Abstract: | The temperature profile of the reaction zone inside the silica substrate tube during thermal heating with a H2/O2 flame under conditions identical to those used in the fabrication of optical fibre preforms using a modified chemical vapour deposition lathe has been characterised with ultra-high temperature stable regenerated optical fibre Bragg gratings. Experimental and theoretical results indicate a significant drop in temperature – up to several hundred degrees – across the tube wall from outside to inside. These results are in contradiction with the broadly accepted assumption that there is no significant thermal gradient across the tube itself. An array of regenerated gratings demonstrates that optical fibre grating based sensing can achieve distributed ultra-high temperature mapping and monitoring in harsh environments. |
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