摘要
In this paper, alloy powders mixed with a molar ratio of Fe : P : C of 80 : 13 : 7 were sprayed on Q235 steel by plasma spray method to prepare coating with amorphous phases. The phase composition of the mixed alloy powders and prepared coating were characterized by X-ray diffraction ( XRD ). The morphology and the composition cf the coating were analyzed by scanning eleetron microscopy (SEM) nnd energy dispersive apectroscopy ( EDS ). In addition, the thermal stability ef the coating with amorphous phases was characterized by differential thermal analyzer ( DTA ). Tile results showed that, usirtg mixed alloy powders with a molar ratio of Fe: P: C of 80:13:7, the coating containing certain amount of amorphous alloys was suceessathlly prepared through atmospheric plasma spray technique. In the coating, the main phases were determined to be Fe, FeP aad Fe2P. The crystallization of the coating started from about 461°. Tile coating was mechanically adhered to the substrate.
In this paper, alloy powders mixed with a molar ratio of Fe : P : C of 80 : 13 : 7 were sprayed on Q235 steel by plasma spray method to prepare coating with amorphous phases. The phase composition of the mixed alloy powders and prepared coating were characterized by X-ray diffraction ( XRD ). The morphology and the composition cf the coating were analyzed by scanning eleetron microscopy (SEM) nnd energy dispersive apectroscopy ( EDS ). In addition, the thermal stability ef the coating with amorphous phases was characterized by differential thermal analyzer ( DTA ). Tile results showed that, usirtg mixed alloy powders with a molar ratio of Fe: P: C of 80:13:7, the coating containing certain amount of amorphous alloys was suceessathlly prepared through atmospheric plasma spray technique. In the coating, the main phases were determined to be Fe, FeP aad Fe2P. The crystallization of the coating started from about 461°. Tile coating was mechanically adhered to the substrate.
