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Theoretical Investigation of Metal Coating Deposition on Optical Fibers by Freezing Technique. The Model of the Process

Published online by Cambridge University Press:  10 February 2011

A. S. Biriukov ,
V. A. Bogatyrjov ,
V. F. Lebedev  and
A. G. Khitun
A. S. Biriukov
Affiliation:
Fiber Optics Research Center at General Physics Institute, 117942, 38 Vavilov street, Moscow, Russia
V. A. Bogatyrjov
Affiliation:
Fiber Optics Research Center at General Physics Institute, 117942, 38 Vavilov street, Moscow, Russia
V. F. Lebedev
Affiliation:
Fiber Optics Research Center at General Physics Institute, 117942, 38 Vavilov street, Moscow, Russia
A. G. Khitun
Affiliation:
Fiber Optics Research Center at General Physics Institute, 117942, 38 Vavilov street, Moscow, Russia
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Extract

Metal-coated fibers are irreplaceable in a multiplicity of uses owing to high hermeticity of the coating and its chemical and thermal stability. At present, the most widespread technique for the metal coating application onto a fiber is a so-called freezing technique, which consists in pulling a silica fiber through a layer of a metal's melt directly in the fiber drawing process. If the fiber temperature is lower than the metal melting point, a certain amount of the melt is frozen on the fiber surface in the form of coating. For this to occur, it is necessary that the duration of the fiber-melt contact did not exceed the time during which the fiber heats up to the metal's melting point; otherwise, the frozen metal will melt again. Because silica glass is poorly wetted with a majority of liquid metals, the coating in the latter case is likely to become discontinuous.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 531: Symposium DD – Reliabilty of Photonics Materials & Structures , 1998 , 273
Copyright
Copyright © Materials Research Society 1998

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References

[1] A.S., Biriukov, V.A., Bogatyrjov, A.G., Khitun Russian Journal of Technical Physics, v.67, N1,100 (1997).Google Scholar
[2] A.S., Biriukov, V.A., Bogatyrjov, A.G., Khitun J.Applied Physics. Vol.81, Issue 10, pp 70187023 (1997).Google Scholar