反应火焰喷涂合成TiC-Fe涂层的反应机理

Reaction Mechanism of Preparing TiC-Fe Coatings by Reactive Flame Spray Synthesis

  • 摘要: 利用差热分析(DTA)、X-射线分析(XRD)等测试手段,研究了反应火焰喷涂过程中喷涂粉末(Fe-Ti-C体系)的反应机理.研究结果表明,在反应火焰喷涂合成TiC-Fe涂层中,喷涂粉末在飞行过程中的反应是逐步进行的.喷涂距离为125~170mm是发生反应的主要区域.在到达工件表面时,反应已基本结束.因此,与传统热喷涂相比,反应火焰喷涂的优势在于,利用廉价原料一步合成、沉积比较昂贵的涂层材料.

     

    Abstract: The reaction mechanism of Fe-Ti-C system was studied by Deferent Thermal Analysis (DTA),X-Ray Analysis (XRD), Scanning Electron Micrograph (SEM) and other means during the reactive apglomerated spray powder flying when TiC-Fe cermet coatings were obtained by Reactive Flame Spray Synthesis (RFSS). It is revealed tha the reaction of Fe-Ti-C system happened step by step during the reactive spray powder flying, and basically finished when it reached the substrate, TiC-Fe materials were mainly synthsized when the spray distance is 125~170 mm. Therefore, Compared with the theditional oxygen-acetylene flame spray technology,the advantages of RFSS lied in simultaneous synteesis and deposition of expensive coating materials from an in-situ reaction of cheap raw materials.

     

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