摘要
A Cr-Ni-Mo overlayer was deposited on the surface of compacted graphite iron(CGI)by the plasma transferred arc(PTA)alloying technique.The microstructure of Cr-Ni-Mo overlayer was characterized by optical microscopy(OM),scanning electron microscopy(SEM)equipped with energy dispersive spectroscopy(EDS),and X-ray diffractometer(XRD).Results show that the cross-section consists of four regions:alloying zone(AZ),molten zone(MZ),heat affected zone(HAZ),and the substrate(SUB).The microstructure of AZ mainly consists of cellularγ-(Fe,Ni)solid solution,residual austenite and a network of eutectic Cr7C3 carbide while the MZ area has a typical feature of white cast iron(M3C-type cementite).The martensite/ledeburite double shells are observed in the HAZ.With decreasing the concentration of Cr-Ni-Mo alloys,the fracture mode changes from ductile in the AZ to brittle in the MZ.The maximum hardness of the AZ(450 HV0.2)is lower than that of the MZ(800 HV0.2).The eutectic M3 C and M7C3 carbides increase the microhardness,while the austenite decreases that of the AZ.
A Cr-Ni-Mo overlayer was deposited on the surface of compacted graphite iron(CGI)by the plasma transferred arc(PTA)alloying technique.The microstructure of Cr-Ni-Mo overlayer was characterized by optical microscopy(OM),scanning electron microscopy(SEM)equipped with energy dispersive spectroscopy(EDS),and X-ray diffractometer(XRD).Results show that the cross-section consists of four regions:alloying zone(AZ),molten zone(MZ),heat affected zone(HAZ),and the substrate(SUB).The microstructure of AZ mainly consists of cellularγ-(Fe,Ni)solid solution,residual austenite and a network of eutectic Cr7C3 carbide while the MZ area has a typical feature of white cast iron(M3C-type cementite).The martensite/ledeburite double shells are observed in the HAZ.With decreasing the concentration of Cr-Ni-Mo alloys,the fracture mode changes from ductile in the AZ to brittle in the MZ.The maximum hardness of the AZ(450 HV0.2)is lower than that of the MZ(800 HV0.2).The eutectic M3 C and M7C3 carbides increase the microhardness,while the austenite decreases that of the AZ.
