Analysis of thermally induced loss in fiber-optic ribbons

The Bell System Technical Journal Pub Date : 1983-04-01 DOI:10.1002/J.1538-7305.1983.TB03112.X

G. Brockway, M. R. Santana

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引用次数: 6

Abstract

In this paper, added loss during temperature cycling in a given ribboned fiber is shown to be caused by thermally induced axial compressive strain imparted to the fiber. A microbending-sensitivity parameter δ is introduced which reduces all loss-strain curves corresponding to different fibers to one characteristic master curve. Thermoviscoelasticity theory is used to calculate the time- and temperature-dependent compressive strain imparted to a ribboned fiber during a standard environmental cycle. Combining these analytical results with environmental data, the functional relationship between fiber-compressive strain and the added loss for a fiber of any given δ in an Adhesive-Sandwich Ribbon (ASR) with Urethane-Acrylate (UA) coated fibers has been determined. Using this analysis, the added loss for a UA ASR can now be predicted for any environmental cycle. The critical material properties that dominate the environmental performance of ASRs are the tape shrinkback at elevated temperatures and the product αEA of the coefficient a of thermal expansion, the time- and temperature-dependent relaxation modulus E, and the area A of the coating.

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光纤带热致损耗分析

在本文中，在给定的带状纤维中，温度循环期间的附加损耗是由热诱导轴向压缩应变传递给纤维引起的。引入微弯曲灵敏度参数δ，将不同纤维对应的所有损耗-应变曲线简化为一条特征主曲线。热粘弹性理论是用来计算时间和温度依赖的压缩应变，赋予带状纤维在一个标准的环境循环。将这些分析结果与环境数据相结合，确定了在聚氨酯-丙烯酸酯(UA)涂层纤维的胶粘剂-三明治带(ASR)中任意给定δ的纤维的纤维压缩应变与附加损耗之间的函数关系。利用这种分析，现在可以预测任何环境循环下UA ASR的附加损耗。决定asr环境性能的关键材料性能是高温下的胶带收缩率和热膨胀系数a的乘积αEA、随时间和温度变化的松弛模量E以及涂层的面积a。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Bell System Technical Journal

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