光纤用混合玻璃涂层——航空航天电缆优化研究进展

A. Wójcik, M. Messer, A. Glista
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引用次数: 1

摘要

海军航空系统司令部(NAVAIR)正在支持新型涂层材料和工艺的开发,以优化用于恶劣航空航天环境的光纤。NAVAIR特别希望纤维具有更高的抗弯强度和耐水腐蚀性,能够在高温环境中工作,易于终止。在我们之前的论文中,我们报道了一种新型的耐热不可剥离涂层无机-有机杂化材料,称为“杂化玻璃”。在这些研究中,混合玻璃涂层作为单一的UV固化层应用在光纤上,共价结合到纤维上,为其提供增强的强度和环境耐久性。额外的好处包括更小的纤维直径,最小的弯曲半径和易于终止。这项研究是我们对插入航空航天电缆的光纤的高温混合玻璃涂层保护性能评估工作的继续。这项研究还包括一种可剥离的混合玻璃涂层。本文讨论了可剥离和不可剥离混合玻璃涂层的多模和单模电缆光纤混合玻璃性能的测试结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hybrid glass coatings for optical fibers-progress toward optimization for aerospace cables
The Naval Air Systems Command (NAVAIR) is supporting development of novel coating materials and processes for optimized optical fiber for use in the harsh aerospace environment. Specifically NAVAIR desires fiber of improved bending strength and water corrosion resistance, capable of performing in a high temperature environment with ease of termination. In our previous papers we reported a new type of thermally resistant non strippable coating inorganic-organic hybrid called "hybrid glass". In those studies the hybrid glass coating was applied on optical fibers as a single UV curable layer, bonded covalently to the fiber that provided it with enhanced strength and environmental durability. Additional benefits included smaller fiber diameter, minimal bend radius and ease of termination. This study is a continuation of our effort to assess the protective properties of high temperature hybrid glass coating on optical fibers inserted in aerospace cables. The research also includes a strippable version of hybrid glass coating. This paper discusses test results of hybrid glass performance on cabled multimode and single mode optical fibers coated with strippable and non strippable hybrid glass coatings.
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