Chemical Industry and Engineering Progress ›› 2023, Vol. 42 ›› Issue (9): 4894-4904.DOI: 10.16085/j.issn.1000-6613.2022-1898

• Resources and environmental engineering • Previous Articles     Next Articles

Research progress of fly ash in anti-corrosion coatings

SONG Weitao(), SONG Huiping(), FAN Zhenlian, FAN Biao, XUE Fangbin   

  1. Institute of Resources and Environmental Engineering, Shanxi University, Taiyuan 030600, Shanxi, China
  • Received:2022-10-13 Revised:2022-12-19 Online:2023-09-28 Published:2023-09-15
  • Contact: SONG Huiping

粉煤灰在防腐涂料中的研究进展

宋伟涛(), 宋慧平(), 范朕连, 樊飙, 薛芳斌   

  1. 山西大学资源与环境工程研究所,山西 太原 030600
  • 通讯作者: 宋慧平
  • 作者简介:宋伟涛(1999—),男,硕士研究生,研究方向为超疏水涂层。E-mail:405136367@qq.com
  • 基金资助:
    国家自然科学基金(22378241);山西省黄河实验室科技攻关项目(YRL-202112)

Abstract:

The corrosion phenomenon in life brings many safety hazards and economic losses, and coatings are widely used because they are simple and effective. In recent years, fly ash has attracted a lot of attention as a filler material in anti-corrosion coatings due to its own structure and excellent physical and chemical properties. The addition of fly ash has replaced or partially replaced material substances in anti-corrosion coatings, greatly reducing the economic cost of raw materials and improving the utilization of solid waste resources. The author first combined the basic properties of fly ash and discussed the principles of its corrosion resistance in terms of the physical shielding effect, mechanical properties and electrochemical protection of the coating, and clarified the role played by fly ash in it. Starting from the base materials used in the preparation of the coatings, the present stage of fly ash anti-corrosion coatings was classified into three main types: fly ash epoxy resin anti-corrosion coatings, fly ash silicate anti-corrosion coatings and other types of fly ash anti-corrosion coatings. The existing research progress and the nature of the fly ash used for each type of coating were also summarized and outlined. However, research on fly ash for anti-corrosion coatings was still on a laboratory scale at this stage, making it difficult to achieve large-scale industrial applications and suffering from poor performance and durability due to cost and process. Therefore, the development of low-cost fly ash anti-corrosion coatings with self-healing, self-cleaning and anti-pollution properties was an urgent problem to be solved.

Key words: fly ash, anti-corrosion coating, filler, anti-corrosion mechanism, epoxy resin, silicate

摘要:

生活中的腐蚀现象带来了许多安全隐患与经济损失,涂料防腐因其操作简单且效果显著而得到了广泛的应用。近年来,粉煤灰由于自身的结构以及优异的理化性质,作为一种防腐涂料中的填料物质引起了广泛的关注。粉煤灰的加入替代或部分替代了防腐涂料中的材料物质,大大降低了原材料的经济成本,提高了固废资源的利用率。本文结合粉煤灰的基本性质,从涂层的物理屏蔽效应、力学性能、电化学保护三个方面论述了其耐腐蚀性的原理,并阐明了粉煤灰在其中起到的作用。从制备涂层过程中使用的基料入手,将现阶段的粉煤灰防腐涂层分为三种主要类型:粉煤灰环氧树脂防腐涂层、粉煤灰硅酸盐防腐涂层、其他类型的粉煤灰防腐涂料。并对每种类型的涂料现有的研究进展和使用的粉煤灰的性质进行了总结和概括。粉煤灰用于防腐涂料的研究现阶段仍然停留在实验室规模,因为成本和工艺原因,难以实现大规模的工业化应用且存在性能单一、耐久性差的问题。因此开发低成本且具有自修复、自清洁和抗污染特性的粉煤灰防腐涂层是亟须解决的难题。

关键词: 粉煤灰, 防腐涂料, 填料, 防腐机理, 环氧树脂, 硅酸盐

CLC Number: 

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