腐蚀屏障涂料:化学路线的进展与展望

G. Kordas
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引用次数: 12

摘要

用于保护金属的改进的腐蚀屏障涂层(CBCs)将使未来的金属结构能够长时间运行,通过减少环境污染和维护成本来确保提高安全性。近年来,人们开发了多种防腐蚀涂层的生产方法和设计方法。本文仅对化学技术制备的CBCs进行综述。这些CBCs可以是被动的,也可以是主动的,并且性能优异。今天,大部分工作集中在“智能纳米材料”的发现和应用上,如果将其纳入“被动CBCs”中,将使其变成“主动CBCs”,使其具有“自我修复”的现象,从而延长其使用寿命。目前,许多工作都集中在开发能够在早期阶段诊断腐蚀的传感器,以及能够自我诊断环境并根据需求做出反应的CBCs。此外,回顾了最近的技术发展,并提出了一项全面的战略,以更快地开发新的CBC材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Corrosion Barrier Coatings: Progress and Perspectives of the Chemical Route
Improved corrosion barrier coatings (CBCs) to protect metals will allow future metal structures to operate for extended periods, ensuring improved safety by reducing environmental pollution and maintenance costs. Many production methods and design of corrosion barrier coatings (CBCs) have been developed. This review focuses only on CBCs made with chemistry techniques. These CBCs can be passive and active with remarkable performance. Today, most of the work focuses on the discovery and application of “smart nanomaterials,” which, if incorporated into “passive CBCs,” will turn them into “active CBCs,” giving them the phenomenon of “self-healing” that extends their service life. Today, many efforts are focused on developing sensors to diagnose corrosion at an early stage and CBCs that self-diagnose the environment and respond on demand. In addition, recent technological developments are reviewed, and a comprehensive strategy is proposed for the faster development of new CBC materials.
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CiteScore
4.50
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