Elaboración de recubrimientos base cobre sobre un sustrato de porcelana mediante proyección térmica con llama oxiacetilénica

TecnoLogicas Pub Date : 2015-08-03 DOI:10.22430/22565337.190
Daniela Soto-Martínez, Carolina Parra-Velásquez, M. E. López-Gómez, Carlos F. Vásquez-Jiménez, Fabio Vargas-Galvis
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引用次数: 2

Abstract

A coated system consisting of a ceramic substrate and a coating of a copper alloy was developed in order to provide electrically conductive properties to specific surface of the substrate. The coatings were elaborated by oxy-fuel thermal spraying processes. The best way to prepare the surface of the substrate was previously determined to achieve a sufficient adherence of copper alloy particles on the ceramic substrate. In order to manufacture the coatings an Eutectic CastolinTM 21071 powder was used, the oxy-fuel flames were produced from two different volumetric acetylene-oxygen ratios (1:1.15 and 1:2.5) obtaining a reducing and oxidizing flame respectively. The effect of surface preparation of the substrate, the coating thickness and the energy of the flame on the structure and coating adhesion were evaluated. It was found that the coatings obtained using a reducing flame presented lower adhesion values to the ceramic substrate and a higher level of porosity in its structure, while those made using an oxidizing flame presented greater adhesion and an homogenous structure (low porosity). Finally, a very low adhesion values were obtained on the non-prepared substrates with both flames.
用氧乙炔火焰热喷涂在瓷基板上制备铜基涂层
为了在基材的特定表面提供导电性能,开发了一种由陶瓷基材和铜合金涂层组成的涂层系统。采用氧燃料热喷涂工艺制备涂层。制备衬底表面的最佳方法是先前确定的,以实现铜合金颗粒在陶瓷衬底上的充分粘附。为了制备涂层,采用共晶CastolinTM 21071粉末,在两种不同体积乙炔-氧比(1:1.15和1:25)下产生氧燃料火焰,分别获得还原和氧化火焰。考察了基体表面处理、涂层厚度和火焰能量对结构和涂层附着力的影响。研究发现,使用还原火焰制备的涂层对陶瓷基体的附着力较低,其结构孔隙率较高,而使用氧化火焰制备的涂层具有较好的附着力和均匀结构(低孔隙率)。最后,两种火焰在未制备的基底上获得了非常低的粘附值。
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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30
审稿时长
28 weeks
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