Optical Fiber Preform Market Strategy, Market Driving Factors and Consumption Forecast to 2017-2022
Optical Fiber Preform Market Trend, Optical Fiber Preform Market Growth, Optical Fiber Preform Market Research Report, Optical Fiber Preform Market Share, Optical Fiber Preform Market Analysis
Optical Fiber Preform Market Trend, Optical Fiber Preform Market Growth, Optical Fiber Preform Market Research Report, Optical Fiber Preform Market Share, Optical Fiber Preform Market Analysis
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temperature of the gas up <strong>to</strong> 1,900 K (1,600 °C, 3,000 °F), where the tetrachloride’s react with oxygen<br />
for producing produce silica or Germania (germanium dioxide) particles in the optical fiber perform<br />
industry.<br />
In vapor axial or outside vapor deposition, the glass is formed by flame hydrolysis, a reaction wherein<br />
germanium tetrachloride <strong>and</strong> silicon tetrachloride are oxidized by reaction with water (H2O) in an<br />
oxyhydrogen flame. In outside vapor deposition, the glass is deposited on<strong>to</strong> a solid rod, which is<br />
removed before additional dispensation. In vapor axial deposition, a short seed rod is used, <strong>and</strong> a<br />
porous preform, whose length is not limited by the size of the source rod, is built up on its end. The<br />
porous preform is consolidated in<strong>to</strong> a solid, transparent preform by heating <strong>to</strong> about 1,800 K (1,500<br />
°C, 2,800 °F).<br />
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Typical communications fiber makes use of a circular preform. For certain applications such as doubleclad<br />
fibers, the other form is preferred. Herein, an asymmetric shape improves the filling fac<strong>to</strong>r for<br />
laser pumping in the <strong>Optical</strong> <strong>Fiber</strong> <strong>Preform</strong> <strong>Market</strong>.However, careful polishing of the preform is<br />
important, since any defects of the preform superficial affect the optical <strong>and</strong> mechanical possessions<br />
of the subsequent fiber. In particular, the preform for the test-fiber shown in the figure was not<br />
polished well, <strong>and</strong> cracks are seen with the confocal optical microscope.<br />
<strong>Optical</strong> <strong>Fiber</strong> <strong>Preform</strong> <strong>Market</strong> is segmented, By Product in<strong>to</strong> outside chemical Vapor Deposition,<br />
Vapor Phase Axial Deposition, Modified Chemical Vapor Deposition (PCVD), <strong>and</strong> Modified Chemical<br />
Vapor Deposition. Global <strong>Optical</strong> <strong>Fiber</strong> <strong>Preform</strong> <strong>Market</strong> is segmented, By Geographical Region in<strong>to</strong><br />
North America, China, Europe, Southeast Asia, <strong>and</strong> India. <strong>Optical</strong> <strong>Fiber</strong> <strong>Preform</strong> industry Key Players<br />
includes Prysmian, Shin-Etsu, Furukawa Electric, Sumi<strong>to</strong>mo Electric, Heng<strong>to</strong>ng Optic-electric Co., Ltd.,<br />
Fujikura <strong>and</strong> OFS Fitel.<br />
Geographically, this report is segmented in<strong>to</strong> several key Regions, with production, consumption,<br />
revenue (million USD), market share <strong>and</strong> growth rate of <strong>Optical</strong> <strong>Fiber</strong> <strong>Preform</strong> in these regions,<br />
from 2012 <strong>to</strong> <strong>2022</strong> (forecast), covering<br />
• United States<br />
• EU<br />
• China
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