Potential of thermal sprayed technologies for maintenance and repair of conventional and nuclear power plants components

METAL 2020 Conference Proeedings Pub Date : 2020-01-01 DOI:10.37904/metal.2020.3541

Š. Houdková, Z. Česánek, P. Šulcová, A. Keslová, K. Lencová, J. Duliškovič

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Abstract

The thermal spray technologies are versatile methods of deposition of thick coatings on the components surfaces. Based on spraying technology principle, various materials and coating thicknesses can be deposited. Some spraying technologies, as mobile systems, have the capability to be used directly on-site. Typically, the Twin Wire Arc Spraying systems (TWAS) are utilized to spray the large-scale constructions to protect them from corrosion. Also, one of the latest spraying technologies, Cold Spray, is nowadays being developed to serve as mobile system. Both technologies offer the possibility to spray coatings up to several millimeters thick, which makes them suitable for renovation of worn or corroded material in higher volumes. In the manuscript, the used methods and results achieved so far in the frame of National Center for Energy, are presented and compared with respect to the relationships between coatings microstructure, mechanical and functional properties. Both technologies proved its potential to deposit protective coatings, applied on conventional and nuclear power plants components.

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热喷涂技术在维护和修理常规和核电站部件方面的潜力

热喷涂技术是在部件表面沉积厚涂层的通用方法。基于喷涂技术原理，可以沉积各种材料和涂层厚度。一些喷雾技术，作为移动系统，有能力直接在现场使用。通常，双线电弧喷涂系统(TWAS)用于大型建筑物的喷涂，以保护它们免受腐蚀。此外，最新的喷涂技术之一，冷喷涂，目前正在开发作为移动系统。这两种技术都可以喷涂到几毫米厚的涂层，这使得它们适用于更高体积的磨损或腐蚀材料的修复。在手稿中，迄今为止在国家能源中心的框架内所使用的方法和取得的结果，就涂层微观结构，机械和功能性能之间的关系进行了介绍和比较。这两项技术都证明了它在沉积保护涂层方面的潜力，应用于传统和核电站的部件。

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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METAL 2020 Conference Proeedings

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