研究了BTSE前驱体和聚乙二醇柔软剂浓度对溶胶组成和杂化膜性能的影响

S.R. Kunst , E.K. Kerstner , L.V.R. Beltrami , R. Boniatti , H.R.P. Cardoso , T.L. Menezes , J.Z. Ferreira , C.F. Malfatti
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引用次数: 0

摘要

金属表面生态友好型杂化薄膜的开发已成为传统预处理工艺的替代方案。通过溶胶-凝胶技术获得的硅烷涂层由于其杂化界面(有机-无机)易于与金属表面相互作用而广为人知。双-1,2-(三乙氧基硅基)乙烷(BTSE)是一种硅烷,其分子含有6个乙氧基,经水解固化后形成交联膜,通过共价键与金属表面结合,形成具有优异保护性能的屏障膜。然而,经过长时间的暴露,这种薄膜变得容易通过电解质和敏感的机械应力。因此,需要添加增塑剂,如聚乙二醇(PEG),以通过薄膜的阻隔效应来提高性能。这项工作的目的是开发混合薄膜,并评估BTSE硅烷和增塑剂PEG 1500的浓度对镀锌钢基体上电化学和机械性能的影响。采用浸渍法涂膜,并进行热固化。用接触角测定了膜的疏水性,并用扫描电子显微镜(SEM)和轮廓术评价了膜的形貌。通过开路电位监测(OCP)、极化曲线和电化学阻抗谱(EIS)对膜的电化学行为进行了评价。通过球-板试验对膜的力学性能进行了评价。结果表明,与BTSE和PEG的比例无关,杂化膜的表面不规则性很小,但没有开裂或剥落。涂膜后样品表面粗糙度无明显变化。结果表明,薄膜的疏水性高于金属衬底表面。这些结果有利于衬底的腐蚀保护,因为疏水表面排斥电解质的作用。所研究的膜均表现出良好的电化学性能,在腐蚀过程中保护了金属基体。然而,与其他膜相比,低浓度BTSE和高浓度PEG的膜表现出最好的腐蚀性能。此外,还观察到低浓度BTSE的膜具有更强的耐磨性。基于这些结果,可以认为这些薄膜是在潜在侵蚀环境中保护镀锌钢的另一种选择。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Estudo da influência das concentrações do precursor BTSE e do flexibilizante polietilenoglicol na composição do sol e nas propriedades do filme híbrido

The development of eco-friendly thin hybrid films on metallic surfaces has been becoming an alternative for convectional pretreatment processes. Silane coatings obtained via sol-gel technology are widely known, due to its hybrid nature interface (organicinorganic) facilitates interaction with metallic surface. The bis-1,2-(triethoxysilyl)ethane (BTSE) is a silane whose molecule contains six ethoxy groups and, after hydrolysed and cured, form a crosslinked filme that binds to the metal surface by covalent bonds to form a barrier film with excellent protective properties. However, after long periods of exposure, this film becomes susceptible to passage of electrolytes and sensitive to mechanical stresses. For this reason it is required the addition of plasticisers, such as poly(ethylene glycol) (PEG) to increase performance by barrier effect of the films. The objective of this work is to develop hybrid films and evaluate the influence of the concentration of BTSE silane and the plasticiser PEG 1500 on the electrochemical and mechanical properties when applied over galvanized steel substrate. The films were obtained by dip-coating and subjected to thermal curing. The hydrophobicity of the films were determined by contact angle measurements and the morphology was evaluated by scanning electron microscopy (SEM) and by profilometry. The electrochemical behavior of the films were evaluated by open circuit potential monitoring (OCP), polarisation curves and electrochemical impedance spectroscopy (EIS). The mechanical behavior of the films were evaluated by ball-on-plate test. Results showed that the hybrid films presented small surface irregularities, but no cracking or peeling, independently of the proportions of BTSE and PEG. The surface roughness of the samples showed no appreciable variation after the application of films. It was observed that the films have a higher hydrophobicity than the surface of the metal substrate. These results favors the corrosion protection of the substrate, because hydrophobic surfaces repel the electrolyte action. All the studied films showed good electrochemical performance, protecting the metal substrate of the corrosion process. However, it was observed that the film with a lower concentration of BTSE and higher PEG concentration showed the best corrosion performance, when compared to other films studied. Furthermore, it is also observed that films with lower concentration of BTSE showed greater resistance to abrasion. Based on these results, it is considered these films were a alternative for protection of galvanized steel in potentially aggressive environment.

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