To control the superplastic flow and fracture and examine the variation in deformation energy,the stress and grain size of Mg-7.28Li-2.19Al-0.091Y alloy were obtained using tensile testing and microstructure quantific...To control the superplastic flow and fracture and examine the variation in deformation energy,the stress and grain size of Mg-7.28Li-2.19Al-0.091Y alloy were obtained using tensile testing and microstructure quantification,and new high temperature deformation energy models were established.Results show that the grain interior deformation energy increases with increasing the strain rate and decreases with increasing the temperature.The variation in the grain boundary deformation energy is opposite to that in the grain interior deformation energy.At a given temperature,critical cavity nucleation energy decreases with increasing strain rate and cavity nucleation becomes easy,whereas at a given strain rate,critical cavity nucleation energy increases with increasing temperature and cavity nucleation becomes difficult.The newly established models of the critical cavity nucleation radius and energy provide a way for predicting the initiation of microcrack and improving the service life of the forming parts.展开更多
In order to obtain a high-performance surface on TiAl alloy that can meet the requirements in hot corrosion environment,Si-Al-Y coatings were fabricated by pack cementation process at 1050℃for 4 h.Corrosion behaviors...In order to obtain a high-performance surface on TiAl alloy that can meet the requirements in hot corrosion environment,Si-Al-Y coatings were fabricated by pack cementation process at 1050℃for 4 h.Corrosion behaviors of the TiAl alloy with and without Si-Al-Y coatings are compared to illustrate the factors and corresponding mechanism in molten salt environment of 25 wt%K2SO4 and 75 wt%Na2SO4 at 900°C.The obtained Si-Al-Y coating was mainly composed of a TiSi2 outer layer,a(Ti,X)5Si4 and(Ti,X)5Si3(X represents Nb or Cr element)middle layer,a TiAl2 inner layer and a Al-rich inter-diffusion zone.The inter-phase selective corrosion containing corrosion pits extending alongα2 phase from lamellar interfaces in hot corrosion tested TiAl alloy was observed.However,by being coated with Si-Al-Y coating,the hot corrosion performance of TiAl alloy was improved remarkably.展开更多
Microstructure and properties of Al-0.30Zr and Al-0.30Zr-0.08Y (mass fraction, %) alloys were investigated by electrical conductivity measurements, microhardness tests, scanning electron microscopy (SEM) and trans...Microstructure and properties of Al-0.30Zr and Al-0.30Zr-0.08Y (mass fraction, %) alloys were investigated by electrical conductivity measurements, microhardness tests, scanning electron microscopy (SEM) and transmission electron microscopy (TEM). Micron-sized primary Al3Y phases form within grains and at grain boundaries simultaneously as product of eutectic reaction in as-cast Al-Zr--Y alloys. The addition of Y obviously accelerates the precipitation kinetics of Al3Zr (Ll2) in Al-Zr-Y alloys. The Al-Zr-Y alloys exhibit greater electrical conductivity during aging due to formation of increased volume fractions of Al3(Zr, Y) precipitates. In ternary Al-Zr-Y alloys, spheroidal L l2-structured Al3(Zr, Y) precipitates with increased number density and smaller mean radius were observed. The Al-0.30Zr-0.08Y alloys show improved recrystallization resistance compared with Al-0.30Zr alloys展开更多
With the aim to further improve the mechanical properties of Mg-A1-RE-based alloy, Mg-3.0Al-1.8Ce-0.3Y-0.2Mn alloy was prepared by high-pressure die-casting technique. The microstructure, thermal stability of intermet...With the aim to further improve the mechanical properties of Mg-A1-RE-based alloy, Mg-3.0Al-1.8Ce-0.3Y-0.2Mn alloy was prepared by high-pressure die-casting technique. The microstructure, thermal stability of intermetallic phases and mechanical properties were investigated. The results show that the alloy is composed of fine primary a-Mg dendrites and eutectic in the interdendritic regions. The intermetallic phases in eutectic are Aln(Ce,Y)3 and A12(Ce,Y) with the former being the dominant one. The thermal stability of Al11(ce,Y)3 is conditioned. It is basically stable at temperature up to 200℃ within 800 h, while most of the Al11(Ce,Y)3 intermetallics transform to A12(Ce,Y) at higher temperature of 450 ℃ for 800 h. The alloy exhibits remarkably improved strength both at room temperature and 200℃, which is mainly attributed to the reinforcement of dendrite boundaries with Alll(Ce,Y)3 intermetallics, small dendritic arm spacing effect as well as the solid solution strengthening with Y element.展开更多
To obtain magnesium alloys with a low density and improved mechanical properties,Y element was added into Mg−4Li−3Al(wt.%)alloys,and the effect of Y content on microstructure evolution and mechanical properties was in...To obtain magnesium alloys with a low density and improved mechanical properties,Y element was added into Mg−4Li−3Al(wt.%)alloys,and the effect of Y content on microstructure evolution and mechanical properties was investigated by using optical microscopy,scanning electron microscopy and tensile tests.The results show that mechanical properties of as-cast Mg−4Li−3Al alloys with Y addition are significantly improved as a result of hot extrusion.The best comprehensive mechanical properties are obtained in hot-extruded Mg−4Li−3Al−1.5Y alloy,which possesses high ultimate tensile strength(UTS=248 MPa)and elongation(δ=27%).The improvement of mechanical properties of hot-extruded Mg−4Li−3Al−1.5Y alloy was mainly attributed to combined effects of grain refinement,solid solution strengthening and precipitation strengthening.展开更多
基金High Technology Research and Development Program of China(2011AA03A409)National Natural Science Foundation of China(51574097,91226201,91326113)+2 种基金Fundamental Research Funds for the Central Universities(HEUCF141502)Foundation for University Key Teacher of Heilongjiang Province of China(1253G016)Scientific Rescarch and Heilongjiang Postdoctoral Science Foundation(LBH-Q15019,LBH-Q15020,LBH-TZ0411)
基金Project(51334006)supported by the National Natural Science Foundation of China
文摘To control the superplastic flow and fracture and examine the variation in deformation energy,the stress and grain size of Mg-7.28Li-2.19Al-0.091Y alloy were obtained using tensile testing and microstructure quantification,and new high temperature deformation energy models were established.Results show that the grain interior deformation energy increases with increasing the strain rate and decreases with increasing the temperature.The variation in the grain boundary deformation energy is opposite to that in the grain interior deformation energy.At a given temperature,critical cavity nucleation energy decreases with increasing strain rate and cavity nucleation becomes easy,whereas at a given strain rate,critical cavity nucleation energy increases with increasing temperature and cavity nucleation becomes difficult.The newly established models of the critical cavity nucleation radius and energy provide a way for predicting the initiation of microcrack and improving the service life of the forming parts.
基金Project(2020AAC02025)supported by the Natural Science Foundation of Ningxia Province,ChinaProject(51961003)supported by the National Natural Science Foundation of China+1 种基金Project(TJGC2019040)supported by the Ningxia Youth Talents Supporting Program,ChinaProject(2020xyzc103)supported by the Foundation of North Minzu University,China。
文摘In order to obtain a high-performance surface on TiAl alloy that can meet the requirements in hot corrosion environment,Si-Al-Y coatings were fabricated by pack cementation process at 1050℃for 4 h.Corrosion behaviors of the TiAl alloy with and without Si-Al-Y coatings are compared to illustrate the factors and corresponding mechanism in molten salt environment of 25 wt%K2SO4 and 75 wt%Na2SO4 at 900°C.The obtained Si-Al-Y coating was mainly composed of a TiSi2 outer layer,a(Ti,X)5Si4 and(Ti,X)5Si3(X represents Nb or Cr element)middle layer,a TiAl2 inner layer and a Al-rich inter-diffusion zone.The inter-phase selective corrosion containing corrosion pits extending alongα2 phase from lamellar interfaces in hot corrosion tested TiAl alloy was observed.However,by being coated with Si-Al-Y coating,the hot corrosion performance of TiAl alloy was improved remarkably.
基金Project(2012CB619505)supported by the Basic Research Program of ChinaProject(51274141)supported by the National Natural Science Foundation of China
文摘Microstructure and properties of Al-0.30Zr and Al-0.30Zr-0.08Y (mass fraction, %) alloys were investigated by electrical conductivity measurements, microhardness tests, scanning electron microscopy (SEM) and transmission electron microscopy (TEM). Micron-sized primary Al3Y phases form within grains and at grain boundaries simultaneously as product of eutectic reaction in as-cast Al-Zr--Y alloys. The addition of Y obviously accelerates the precipitation kinetics of Al3Zr (Ll2) in Al-Zr-Y alloys. The Al-Zr-Y alloys exhibit greater electrical conductivity during aging due to formation of increased volume fractions of Al3(Zr, Y) precipitates. In ternary Al-Zr-Y alloys, spheroidal L l2-structured Al3(Zr, Y) precipitates with increased number density and smaller mean radius were observed. The Al-0.30Zr-0.08Y alloys show improved recrystallization resistance compared with Al-0.30Zr alloys
基金Project (HEUCFR1128) supported by the Fundamental Research Funds for the Central Universities,ChinaProject (2010AA4BE031)supported by the Key Project of Science and Technology of Harbin City,China+1 种基金Projects (20100471015,20100471046) supported by the China Postdoctoral Science FoundationProject (LBH-Z09217) supported by the Heilongjiang Postdoctorial Fund,China
文摘With the aim to further improve the mechanical properties of Mg-A1-RE-based alloy, Mg-3.0Al-1.8Ce-0.3Y-0.2Mn alloy was prepared by high-pressure die-casting technique. The microstructure, thermal stability of intermetallic phases and mechanical properties were investigated. The results show that the alloy is composed of fine primary a-Mg dendrites and eutectic in the interdendritic regions. The intermetallic phases in eutectic are Aln(Ce,Y)3 and A12(Ce,Y) with the former being the dominant one. The thermal stability of Al11(ce,Y)3 is conditioned. It is basically stable at temperature up to 200℃ within 800 h, while most of the Al11(Ce,Y)3 intermetallics transform to A12(Ce,Y) at higher temperature of 450 ℃ for 800 h. The alloy exhibits remarkably improved strength both at room temperature and 200℃, which is mainly attributed to the reinforcement of dendrite boundaries with Alll(Ce,Y)3 intermetallics, small dendritic arm spacing effect as well as the solid solution strengthening with Y element.
基金The work was supported by the National Natural Science Foundation of China(No.51401115)the Promoted Research Fund for Excellent Young and Middle-aged Scientists of Shandong Province,China(No.BS2013CL034)partially by the Fundamental Research Funds of Shandong University,China(2016JC016).
文摘To obtain magnesium alloys with a low density and improved mechanical properties,Y element was added into Mg−4Li−3Al(wt.%)alloys,and the effect of Y content on microstructure evolution and mechanical properties was investigated by using optical microscopy,scanning electron microscopy and tensile tests.The results show that mechanical properties of as-cast Mg−4Li−3Al alloys with Y addition are significantly improved as a result of hot extrusion.The best comprehensive mechanical properties are obtained in hot-extruded Mg−4Li−3Al−1.5Y alloy,which possesses high ultimate tensile strength(UTS=248 MPa)and elongation(δ=27%).The improvement of mechanical properties of hot-extruded Mg−4Li−3Al−1.5Y alloy was mainly attributed to combined effects of grain refinement,solid solution strengthening and precipitation strengthening.
