Transport of Electrolyte in Organic Coatings on Metal

Q4 Materials Science

Paint and Coatings Industry Pub Date : 2018-12-03 DOI:10.5772/INTECHOPEN.81422

Zoi Manoli, D. Pečko, Guy Van Assche, J. Stiens, A. Pourkazemi, H. Terryn

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引用次数: 4

Abstract

Organic coatings form an effective barrier between metals and their environment, provid- ing them protection against corrosion. Corrosion on coated metals depends mainly on the diffusion of water through the coating, the loss of adhesion at the interface between the coating and the metal (delamination), the rate of the chemical and electrochemical reac-tions under the coating and the treatment of the metal surface before the coating applica- tion. Many aggressive ions are transported toward and inside the coating through water. In organic coatings, typically, the water absorbed by the coating affects the polymer matrix structure, and it causes swelling and stresses, which may result in cracks. Swelling and cracks enhance the transport of water into the solid polymer, and concurrently the diffusion of ions. Over time also, the chemical structure of the polymer may change, adversely affecting its barrier properties and overall performance. In this chapter, we focus on methods to quantify the transport of electrolyte in organic coatings. We mark out the main characteristics, advantages and limitations of each one of them.

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金属表面有机涂层中电解质的输运

有机涂层在金属及其环境之间形成有效的屏障，为金属提供抗腐蚀保护。涂层金属的腐蚀主要取决于水通过涂层的扩散、涂层与金属界面的附着力丧失(分层)、涂层下化学和电化学反应的速度以及涂层应用前金属表面的处理。许多具有侵略性的离子通过水向涂层内部输送。在有机涂层中，通常，涂层吸收的水会影响聚合物基体结构，并引起膨胀和应力，从而可能导致裂缝。膨胀和裂缝加强了水进入固体聚合物的运输，同时也促进了离子的扩散。随着时间的推移，聚合物的化学结构也可能发生变化，对其阻隔性能和整体性能产生不利影响。在本章中，我们着重于量化有机涂层中电解质传输的方法。我们指出了每一种方法的主要特点、优势和局限性。

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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Paint and Coatings Industry Business, Management and Accounting-Marketing

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