高级检索

等离子弧堆焊层的组织与性能的磁场控制

Magnetic field control on microstructure and properties of plasma arc surfacing layer

  • 摘要: 在对两种铁基合金(Fe5和Fe3)进行等离子弧堆焊过程中加入纵向直流磁场来控制堆焊层的硬质相形态及分布,并对两种堆焊层进行了硬度、磨损试验,显微组织及X射线衍射分析。并对两种粉末的堆焊层组织性能进行了研究。结果表明,施加磁场的堆焊层要比无磁场作用的堆焊层硬度高、耐磨性好;磁场电流为3A时的堆焊层性能最佳;合金堆焊层的显微组织α、γ固溶体被充分细化,并获得了理想的硬质相Cr7C3、CrB等。

     

    Abstract: In order to control the shape and distribution of hard phase in surfacing deposit, longitudinal DC magnetic field was applied to the plasma arc surfacing of two iron-based alloys (Fe5 and Fe3). Hardness, wearing, microstructures and X-ray diffraction of the two surfacing deposit were tested. So the structure and property of the two powders' surfacing deposit were studied. The results show that the surfacing deposit of introducing magnetic field has higher hardness and better wearing resistance than the surfacing deposit without magnetic field; The properties of surfacing deposit are optimal when magnetic field current is 3A; The ideal hard phases such as Cr7C3, CrB etc are obtained and solid solutions of α and γ are refined sufficiently.

     

/

返回文章
返回