The cast ingots of Ti-46Al-6Nb-0.25Si-0.2B and Ti-46Al-6Nb-0.5W-0.25Si-0.2B(at%) were made by induction skull melting(ISM) technique.A series of heat treatments(HTs) were conducted to research the microstructure...The cast ingots of Ti-46Al-6Nb-0.25Si-0.2B and Ti-46Al-6Nb-0.5W-0.25Si-0.2B(at%) were made by induction skull melting(ISM) technique.A series of heat treatments(HTs) were conducted to research the microstructure evolution of both alloys.Microstructure and tensile property were examined by scanning electron microscope(SEM),X-ray diffraction(XRD),transmission electron microscope(TEM),and tensile testing machine.The results show that microsegregation(liquid segregation and solid segregation) is exacerbated by the addition of0.5 at%W;the addition of Nb,W in TiAl alloy makes the phase transition difficultly take place;then,the microstructures and tensile properties of both alloys are improved after certain HT processes;finally,the thicknesses of the γ/α_2 lamellae after a certain HT process are significantly affected by the number of residual γ phases before the furnace-cooling moment.展开更多
基金financially supported by the National Natural Science Foundation of China(Nos.51001040,51371064)the Shanghai Aerospace Science and Technology Innovation Fund(No.SAST201428)
文摘The cast ingots of Ti-46Al-6Nb-0.25Si-0.2B and Ti-46Al-6Nb-0.5W-0.25Si-0.2B(at%) were made by induction skull melting(ISM) technique.A series of heat treatments(HTs) were conducted to research the microstructure evolution of both alloys.Microstructure and tensile property were examined by scanning electron microscope(SEM),X-ray diffraction(XRD),transmission electron microscope(TEM),and tensile testing machine.The results show that microsegregation(liquid segregation and solid segregation) is exacerbated by the addition of0.5 at%W;the addition of Nb,W in TiAl alloy makes the phase transition difficultly take place;then,the microstructures and tensile properties of both alloys are improved after certain HT processes;finally,the thicknesses of the γ/α_2 lamellae after a certain HT process are significantly affected by the number of residual γ phases before the furnace-cooling moment.
