Influence of Relative Humidity on Electrical Properties of Textile Laminates

IF 1.1 4区 材料科学 Q3 Engineering
A. Gulbinienė, Loreta Valatkienė
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引用次数: 0

Abstract

The aim of this paper is to determine the influence of relative humidity on the comfort and electrical resistance properties of textile laminates in order to predict possible changes in footwear protection levels. Four textile laminates of different structure and fibre nature were selected for the study. It was determined that water vapour absorption of textile laminates strongly depends on the humidity of the storage environment. The absorption ability of laminates increases about 1.8 – 3 times as relative humidity increases from 65 % up to 95 %. The degree of increase depends on the textile laminate structure and the nature of the materials layers. The electrical properties of protective footwear can be influenced by the structure, thickness, relative humidity, and voltage of textile laminates. For textile laminates composed of natural and synthetic fibres and polymer foam as insulators, the resistivity increases with the thickness of the synthetic fibre and polymer layer. At low voltage (U = 100 V), the textile laminates tested became insulating materials, as the electrical resistivity exceeded the threshold values for antistatic materials in all relative humidity ranges. At high voltage  (U = 500 V) the electrical resistivity of textile the laminates drops dramatically when the relative air humidity increases and the level of protection of the laminates depend on the amount of moisture absorbed and the nature of the layer materials. The laminates possessed insulating properties in environments of up to 65 % relative humidity. In a high humidity of the environment, the insulating properties of textile laminates turned to antistatic, except for laminate without a polymeric membrane, which became conductive.
相对湿度对纺织层压板电性能的影响
本文的目的是确定相对湿度对织物层压板的舒适性和电阻性能的影响,以预测鞋类保护水平的可能变化。选择了四种不同结构和纤维性质的织物层压板进行研究。经测定,织物层压板的水蒸气吸收在很大程度上取决于储存环境的湿度。层压板的吸收能力随着相对湿度从65%增加到95%而增加约1.8–3倍。增加的程度取决于织物层压板结构和材料层的性质。防护鞋的电气性能可能受到织物层压板的结构、厚度、相对湿度和电压的影响。对于由天然纤维和合成纤维以及作为绝缘体的聚合物泡沫组成的织物层压板,电阻率随着合成纤维和聚合物层的厚度而增加。在低电压(U=100 V)下,测试的织物层压板变成了绝缘材料,因为在所有相对湿度范围内,电阻率都超过了抗静电材料的阈值。在高电压(U=500 V)下,当相对空气湿度增加时,织物层压板的电阻率急剧下降,层压板的保护水平取决于吸收的湿气量和层材料的性质。该层压板在高达65%相对湿度的环境中具有绝缘性能。在高湿度的环境中,织物层压板的绝缘性能变为抗静电,但不含聚合物膜的层压板变为导电层压板除外。
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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来源期刊
Materials Science-Poland
Materials Science-Poland 工程技术-材料科学:综合
CiteScore
1.70
自引率
18.20%
发文量
0
审稿时长
6.2 months
期刊介绍: Material Sciences-Poland is an interdisciplinary journal devoted to experimental research into results on the relationships between structure, processing, properties, technology, and uses of materials. Original research articles and review can be only submitted.
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