等离子熔覆Fe-Ni基合金导辊组织结构及失效分析

Microstructure and failure analysis of Fe-Ni based alloy rollers produced by plasma cladding

  • 摘要: 采用等离子熔覆技术将Fe-Ni基高温耐磨合金粉末熔覆到45#圆钢上,制备了Fe-Ni基合金导辊.采用扫描电子显微镜、能谱仪、X射线衍射仪研究了Fe-Ni基合金涂层的组织结构和Fe-Ni基合金导辊的表面失效情况.结果表明:Fe-Ni基高温耐磨涂层组织形态良好,由涂层与基体的结合界面处到涂层的上部其组织由平面晶向树枝晶转变;γ-(Fe,Ni)的含量在涂层中按底部—中部—上部的方向依次降低,而(Cr,Fe)7C3的分布正好相反;Fe-Ni基合金导辊的失效机制为热疲劳开裂和磨粒磨损.

     

    Abstract: Fe-Ni based high temperature wear-resistant powder was cladded on 45# round steel to obtain an Fe-Ni based alloy roller by plasma cladding.Scanning electric microscope,energy spectrometer and X-ray diffractometer were adopted to study the microstructure of the Fe-Ni based alloy coating and the failure surface of the Fe-Ni based alloy roller.It is shown that the morphology of the Fe-Ni based high-temperature wear-resistant coating is well and the morphology is planar crystal at the coating-substrate bonding,while the morphology becomes dendrite at the middle and the top of the coating.The γ-(Fe,Ni) content reduces following the bottom-middle-top order in the coating,but the (Cr,Fe)7C3 is just the opposite.The failure mechanism of the Fe-Ni based alloy roller is thermal fatigue cracking and grain wear.

     

/

返回文章
返回