Fe-based alloy layer reinforced by Ti(C,N) particles was produced on the surface of cast steel. X ray dif fraction (XRD) was used for phase identification in the composite coating. The microstructure of laser clad...Fe-based alloy layer reinforced by Ti(C,N) particles was produced on the surface of cast steel. X ray dif fraction (XRD) was used for phase identification in the composite coating. The microstructure of laser cladding layer was analyzed by means of optical microscope (OM), electron probe microscope analyzer (EPMA), scanning electron microscope (SEM) and transmission electron microscope (TEM). The results show that Ti(C0.3 N0.7 ) particle is in-troduced by an in situ metallurgical reaction of TiN particle and graphite powder in the process of laser cladding. The shape of lots of Ti(C0.3 N0.7) particle is irregular. The sizes of Ti(C0. 3N0. 7) particles range from 0. 1 to 6.0 μm, and they are dispersed evenly in the matrix, which is fine dendritic or cellular crystal. A new kind of phase named Ti(C0.3 N0. 7 ) parti-cles are tightly bonded with α-Fe microstructure, and there is a clean and smooth phase interface between ceramic re-inforcement phase and the matrix.展开更多
基金Item Sponsored by Higher Education Fund of Inner Mongolia of China(nyzy11266)
文摘Fe-based alloy layer reinforced by Ti(C,N) particles was produced on the surface of cast steel. X ray dif fraction (XRD) was used for phase identification in the composite coating. The microstructure of laser cladding layer was analyzed by means of optical microscope (OM), electron probe microscope analyzer (EPMA), scanning electron microscope (SEM) and transmission electron microscope (TEM). The results show that Ti(C0.3 N0.7 ) particle is in-troduced by an in situ metallurgical reaction of TiN particle and graphite powder in the process of laser cladding. The shape of lots of Ti(C0.3 N0.7) particle is irregular. The sizes of Ti(C0. 3N0. 7) particles range from 0. 1 to 6.0 μm, and they are dispersed evenly in the matrix, which is fine dendritic or cellular crystal. A new kind of phase named Ti(C0.3 N0. 7 ) parti-cles are tightly bonded with α-Fe microstructure, and there is a clean and smooth phase interface between ceramic re-inforcement phase and the matrix.
