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Thermal properties and crystallization kinetics of new fluoride glasses

Thermal properties and crystallization kinetics of new fluoride glasses
Thermal properties and crystallization kinetics of new fluoride glasses
The thermal properties and devitrification behaviour of new fluoride glasses were determined by means of thermoanalytical techniques. The glass-forming and stability parameters have been defined and evaluated from the measured characteristic temperatures. The kinetics of devitrification of bulk glass samples was investigated by combining data obtained from both isothermal and constant-heating-rate techniques. The kinetic data were also used to construct the time-temperature-transformation (T-T-T) curves and temperature-heating rate-transformation (T-HR-T) curves. These graphical illustrations emulate the thermal condition of glass preforms while awaiting fibre drawing. The results obtained are compared with a standard fluorozirconate glass currently developed for fibre optical applications.
0921-5093
303-308
Baro, M.D.
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Otero, A.
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Surinach, S.
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Jha, A.
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Jordery, S.
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Poulain, M.
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Soufiane, A.
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Hewak, D.W.
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Taylor, E.R.
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Payne, D.N.
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Baro, M.D.
72fd8f28-3454-4f4e-a3fc-4d6442d9876c
Otero, A.
6ca16ac3-a59a-41e5-9e95-4235dbca8432
Surinach, S.
51db2b25-0844-4165-9fe4-9721bb737ce7
Jha, A.
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Jordery, S.
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Poulain, M.
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Soufiane, A.
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Hewak, D.W.
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Taylor, E.R.
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Payne, D.N.
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Baro, M.D., Otero, A., Surinach, S., Jha, A., Jordery, S., Poulain, M., Soufiane, A., Hewak, D.W., Taylor, E.R. and Payne, D.N. (1994) Thermal properties and crystallization kinetics of new fluoride glasses. Materials Science and Engineering: A, 179-180 (Part 1), 303-308. (doi:10.1016/0921-5093(94)90215-1).

Record type: Article

Abstract

The thermal properties and devitrification behaviour of new fluoride glasses were determined by means of thermoanalytical techniques. The glass-forming and stability parameters have been defined and evaluated from the measured characteristic temperatures. The kinetics of devitrification of bulk glass samples was investigated by combining data obtained from both isothermal and constant-heating-rate techniques. The kinetic data were also used to construct the time-temperature-transformation (T-T-T) curves and temperature-heating rate-transformation (T-HR-T) curves. These graphical illustrations emulate the thermal condition of glass preforms while awaiting fibre drawing. The results obtained are compared with a standard fluorozirconate glass currently developed for fibre optical applications.

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Published date: 1 May 1994
Organisations: Optoelectronics Research Centre

Identifiers

Local EPrints ID: 78161
URI: http://eprints.soton.ac.uk/id/eprint/78161
ISSN: 0921-5093
PURE UUID: 7d9117e6-7bba-4268-b432-96ff2400bdcc
ORCID for D.W. Hewak: ORCID iD orcid.org/0000-0002-2093-5773

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Date deposited: 11 Mar 2010
Last modified: 14 Mar 2024 00:08

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Contributors

Author: M.D. Baro
Author: A. Otero
Author: S. Surinach
Author: A. Jha
Author: S. Jordery
Author: M. Poulain
Author: A. Soufiane
Author: D.W. Hewak ORCID iD
Author: E.R. Taylor
Author: D.N. Payne

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