Preparation of SiO2 solvent-free nanofluids for modification of commercial corrosion-resistant coatings

IF 1.2 4区化学 Q4 POLYMER SCIENCE Journal of Rubber Research Pub Date : 2024-09-17 DOI:10.1007/s42464-024-00278-y

Yan Xiao, Jinliang Xie, Jing Guo, Zheshen Mu, Dongdong Yao, Yaping Zheng

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Abstract

The development of a corrosion-resistance surface on a desired industrial coating is a challenge in several industries. In the aerospace industry, it is necessary to modify the corrosion-resistant coating to address the susceptibility of damage during flight for aviation applications. The present study tested three types of commercially available corrosion-resistant coatings for aviation, and the coating with the best overall performance was modified to enhance its mechanical properties to prevent coating damage due to impacts from raindrops and sand during flight. Silica (SiO₂) nanoparticles with an approximate particle size of 50 nm were prepared by the sol-gel method using tetraethyl orthosilicate (TEOS). The KH560 silane coupling agent, as the neck layer and the M2070 polyether amine as the crown layer, were covalently bonded and then grafted onto the surface of the nano-SiO₂ core to obtain a core-shell structure of the SiO₂ solvent-free nanofluid (SiO₂@KH560-M2070). The tensile property of the polyurethane coating was improved when a small amount of the SiO₂ solvent-free nanofluid was incorporated into the coating. The present study has theoretical and practical guiding significance for the selection and spraying of existing aircraft radome coatings.

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制备二氧化硅无溶剂纳米流体，用于改性商用耐腐蚀涂层

在所需的工业涂层上开发抗腐蚀表面是多个行业面临的挑战。在航空航天工业中，有必要对耐腐蚀涂层进行改性，以解决航空应用在飞行过程中易受损的问题。本研究测试了三种市售航空用防腐蚀涂层，并对综合性能最佳的涂层进行了改性，以增强其机械性能，防止涂层在飞行过程中因雨滴和风沙的冲击而损坏。使用正硅酸四乙酯（TEOS）通过溶胶-凝胶法制备了粒径约为 50 纳米的二氧化硅（SiO2）纳米粒子。KH560硅烷偶联剂作为颈层，M2070聚醚胺作为冠层，通过共价键合后接枝到纳米二氧化硅核的表面，从而得到核壳结构的二氧化硅无溶剂纳米流体（SiO2@KH560-M2070）。在涂层中加入少量 SiO2 无溶剂纳米流体后，聚氨酯涂层的拉伸性能得到了改善。本研究对现有飞机雷达罩涂层的选择和喷涂具有理论和实践指导意义。

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来源期刊

Journal of Rubber Research 化学-高分子科学

自引率

15.40%

发文量

审稿时长

3 months

期刊介绍： The Journal of Rubber Research is devoted to both natural and synthetic rubbers, as well as to related disciplines. The scope of the journal encompasses all aspects of rubber from the core disciplines of biology, physics and chemistry, as well as economics. As a specialised field, rubber science includes within its niche a vast potential of innovative and value-added research areas yet to be explored. This peer reviewed publication focuses on the results of active experimental research and authoritative reviews on all aspects of rubber science. The Journal of Rubber Research welcomes research on: the upstream, including crop management, crop improvement and protection, and biotechnology; the midstream, including processing and effluent management; the downstream, including rubber engineering and product design, advanced rubber technology, latex science and technology, and chemistry and materials exploratory; economics, including the economics of rubber production, consumption, and market analysis. The Journal of Rubber Research serves to build a collective knowledge base while communicating information and validating the quality of research within the discipline, and bringing together work from experts in rubber science and related disciplines. Scientists in both academia and industry involved in researching and working with all aspects of rubber will find this journal to be both source of information and a gateway for their own publications.