飞机复合材料结构的雷击防护分析与比较研究

Q4 Engineering

Fatigue of Aircraft Structures Pub Date : 2016-06-01 DOI:10.1515/fas-2016-0002

A. Katunin

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引用次数: 9

摘要

摘要由于高分子复合材料在飞机结构中的应用日益广泛，加之其导电性能较弱，雷击问题成为飞机运行中的一个严重问题。在复合结构中，雷击可能会造成大面积的损坏，需要适当的维护和修复，从而增加运营成本。为了克服这个问题，各种雷击保护方案已经开发出来。其中一些是基于金属元素和颗粒的浸泡，而另一些则使用新颖的解决方案，如本质导电聚合物或其他类型的高导电颗粒，包括碳纳米管和石墨烯。西里西亚理工大学目前正在开发基于固有导电聚合物的全有机导电复合材料的概念。在许多测试中获得的结果，包括电导率和承载高强度电荷的能力以及某些操作特性，需要与现有的飞机雷击保护解决方案进行比较。下面的研究介绍了用于雷击防护的材料的性能，并与其他解决方案进行了比较研究。

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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Lightning Strike Protection of Aircraft Composite Structures: Analysis and Comparative Study

Abstract Lightning strikes are a serious problem during operation of aircraft due to the increasing applicability of polymeric composites in aircraft structures and the weak electrical conducting properties of such structures. In composite structures, lightning strikes may cause extended damage sites which require to be appropriately maintained and repaired leading to increased operational costs. In order to overcome this problem various lightning strike protection solutions have been developed. Some of them are based on the immersion of metallic elements and particles while others use novel solutions such as intrinsically conductive polymers or other types of highly conductive particles including carbon nanotubes and graphene. The concept of fully organic electrically conductive composites based on intrinsically conductive polymers is currently being developed at the Silesian University of Technology. The results obtained in numerous tests, including concerning electrical conductivity and the capability to carry on high-magnitude electrical charges as well as certain operating properties need to be compared with existing solutions in lightning strike protection of aircraft. The following study presents the properties of the material developed for lightning strike protection and a comparative study with other solutions.

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来源期刊

Fatigue of Aircraft Structures Engineering-Safety, Risk, Reliability and Quality

CiteScore

0.40

自引率

0.00%

发文量

期刊介绍： The publication focuses on problems of aeronautical fatigue and structural integrity. The preferred topics include: full-scale fatigue testing of aircraft and aircraft structural components, fatigue of materials and structures, advanced materials and innovative structural concepts, damage tolerant design of aircraft structure, life extension and management of ageing fleets, structural health monitoring and loads, fatigue crack growth and life prediction methods, NDT inspections, airworthiness considerations.