Physical characterization of E-glass fibres treated with alkylphenylpoly(oxyethylene)alcohol

Colloids and Surfaces Pub Date : 1992-12-11 DOI:10.1016/0166-6622(92)80218-Q

H.M. Fagerholm , C. Lindsjö , J.B. Rosenholm , K. Rökman

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引用次数: 11

Abstract

The adsorption of a non-ionic surfactant, alkylphenylpoly(oxyelhylene)alcohol from aqueous solutions onte industrial E-glass fibres has been followed by measurements of their surface properties (electron spectroscopy for chemical analysis (ESCA) technique), streaming/zeta potential and wetting characteristics. All three techniques indicate substantial changes in the interaction between glass fibres and water as a consequence of surfactant adsorption, although it seems that only a fraction of the total surface is covered by the surfactant. The streaming/zeta potential has been found to reflect the processability of the fibres in a realistic way, whereas the wettability of the fibres provides indirect information concerning the surface coverage and polarity of the fibres. Although the ESCA measurements are performed in ultra-high vacuum, the results are shown to give semi-quantitative information about the amount adsorbed on the surface, and correlate well with the wetting properties. All methods indicate, as expected, an enhanced absorption with increased surfactant concentration.

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烷基苯基聚氧乙烯醇处理e -玻璃纤维的物理特性

研究了一种非离子表面活性剂烷基苯基聚(氧乙烯)醇从水溶液中吸附在工业e -玻璃纤维上，随后测量了它们的表面特性(化学分析电子能谱(ESCA)技术)、流动/ ζ电位和润湿特性。这三种技术都表明，表面活性剂的吸附使玻璃纤维和水之间的相互作用发生了实质性的变化，尽管表面活性剂似乎只覆盖了总表面的一小部分。已发现流电位/ ζ电位以一种现实的方式反映了纤维的可加工性，而纤维的润湿性提供了关于纤维表面覆盖和极性的间接信息。尽管ESCA测量是在超高真空条件下进行的，但结果显示可以给出表面吸附量的半定量信息，并且与润湿性能有很好的相关性。所有的方法都表明，正如预期的那样，吸收率随着表面活性剂浓度的增加而增强。

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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Colloids and Surfaces

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