论文部分内容阅读
In this study, a method to prepare self-fused alloy coat, which started with a cold adhesion precoating and then induction fusing plus, is presented. It also intended to analyze the mechanism, microstructure and anitwear ability of the coat. The workpiece was precoated with Ni60 powder through an adhesion agent. The oven-dried precoat was then heated by a high frequency induction generated by lOOkw power with a frequency of 250kHz. The technological parameters of the method were determined through analysis of the thermal magnetism, thermal resistivity and anti-induction mechanism. By comparing the microstructures and properties of the coat produced by cold adhesion, thermal spraying and laser refusing, it is concluded that: (1) One side of the workpiece should be preheated to 200*C before induction fusion, and the range of induction frequency should be 200~250kHz. (2) The microstructure of the coat by cold adhesion is superior to that by thermal spraying, but the particle size range should be 0.047~0.044mm (200~320 meshes) (3) The corrosion resistance of Ni60 coat by cold adhesion is better than that by thermal spraying, and the cold adhesion is the best method to prepare the anti wear coat.
In this study, a method to prepare self-fused alloy coat, which started with a cold adhesion precoating and then induction fusing plus, is presented. It was intended to analyze the mechanism, microstructure and anitwear ability of the coat. with the Ni60 powder through an adhesion agent. The oven-dried precoat was then heated by a high frequency induction generated by 100 kW power with a frequency of 250 kHz. The technological parameters of the method are determined through analysis of the thermal magnetism, thermal resistivity and anti -induction mechanism. By comparing the microstructures and properties of the coating produced by cold adhesion, thermal spraying and laser refusing, it is said that: (1) One side of the workpiece should be preheated to 200 * C before induction fusion, and the range of induction frequency should be 200~250 kHz. (2) The microstructure of the coat by cold adhesion is superior to that by thermal spraying, but the particle size range sh ould be 0.047 ~ 0.044mm (200 ~ 320 meshes) (3) The corrosion resistance of Ni60 coat by cold adhesion is better than that by thermal spraying, and the cold adhesion is the best method to prepare the anti wear coat.