The morphology evolution of AI9(Mn,Ni)2 eutectic phase in AI-4Ni-2Mn alloy at 350 .C was examined. Two kinds of morphology evolution trends of AIg(Mn, Ni)2 eutectic phase were observed by using scanning electron m...The morphology evolution of AI9(Mn,Ni)2 eutectic phase in AI-4Ni-2Mn alloy at 350 .C was examined. Two kinds of morphology evolution trends of AIg(Mn, Ni)2 eutectic phase were observed by using scanning electron microscopy and transmission electron microscopy. The ribbon-like AIg(Mn, Ni)2 eutectic phase taking up a small portion of the eutectic structures gradually changes from ribbon-like morphology to rod-like during the heat treatment. The rod-like AIg(Mn, Ni)2 eutectics, primary eutectic structure in the alloy, become unstable at the transverse sub- boundaries of the eutectic rod when the samples are heat treated at 350 .C, and then split up into short rods with the extension of heat treatment time. Also, the Vickers microhardness test was used to characterize the change of local mechanical properties. The hardness test results indicate that local morphology evolution of eutectic phase has no obvious effect on the local mechanical properties of the alloy. The microhardness of the eutectic area increases slightly when the heat treatment time is extended to 192 h or 360 h.展开更多
文摘The morphology evolution of AI9(Mn,Ni)2 eutectic phase in AI-4Ni-2Mn alloy at 350 .C was examined. Two kinds of morphology evolution trends of AIg(Mn, Ni)2 eutectic phase were observed by using scanning electron microscopy and transmission electron microscopy. The ribbon-like AIg(Mn, Ni)2 eutectic phase taking up a small portion of the eutectic structures gradually changes from ribbon-like morphology to rod-like during the heat treatment. The rod-like AIg(Mn, Ni)2 eutectics, primary eutectic structure in the alloy, become unstable at the transverse sub- boundaries of the eutectic rod when the samples are heat treated at 350 .C, and then split up into short rods with the extension of heat treatment time. Also, the Vickers microhardness test was used to characterize the change of local mechanical properties. The hardness test results indicate that local morphology evolution of eutectic phase has no obvious effect on the local mechanical properties of the alloy. The microhardness of the eutectic area increases slightly when the heat treatment time is extended to 192 h or 360 h.
