Pouring and mold temperatures are two important parameters during casting magnesium components. The present study examined their influence on hot tearing susceptibility (HTS) of commercial AZ91D and newly developed ...Pouring and mold temperatures are two important parameters during casting magnesium components. The present study examined their influence on hot tearing susceptibility (HTS) of commercial AZ91D and newly developed Mg-3Nd-0.2Zn-Zr (mass fraction, %; NZ30K) magnesium alloys in gravity permanent mold casting condition. The results indicate that mold temperature shows much more significant influence on the HTS of both alloys than pouring temperature whose influence only can be distinguished at low mold temperature (341 K for AZ91D alloy and 423 K for NZ30K alloy). Hot tearing susceptibility prediction model concerning feeding parameters, grain size and solidification range, is more suitable to estimate the HTS of different magnesium alloys than the model only concerning feeding parameters. In order to achieve better hot tearing resistance, the ranges of pouring and mold temperatures are suggested to be 961-991 K and≥641 K for AZ91D alloy, 1003-1033 K and≥623 K for NZ30K alloy, respectively.展开更多
This work investigated the effects of different Y additions(0,1.5,3.0 and 4.5 wt.%)on the microstructural evolution and mechanical performance of cast Mg−3Nd−0.2Zn−0.5Zr alloy.The results show that as the Y content in...This work investigated the effects of different Y additions(0,1.5,3.0 and 4.5 wt.%)on the microstructural evolution and mechanical performance of cast Mg−3Nd−0.2Zn−0.5Zr alloy.The results show that as the Y content increases,the key secondary phases in as-cast alloys change from the Mg_(12)Nd type to the Mg_(24)Y_(5) type.Meanwhile,the number density of Zn−Zr particles in the grains of as-quenched alloys gradually decreases.HAADF-STEM observations of peak-aged samples reveal that element Y is greatly enriched in the globularβ¢precipitates,leading to a significantly increased volume fraction and promoted precipitation kinetics ofβ¢precipitates,resulting in enhanced strength of the alloy.Tensile tests reveal that,with the addition of 4.5 wt.%Y,the yield strength of the base alloy is substantially increased by 88 and 61 MPa after being aged at 200 and 225°C under peak-aged conditions,respectively.展开更多
Mg-3.0Nd-0.4Zn-0.4Zr magnesium alloy were prepared by cast-extruding and chip-extruding.Microstructure,tensile and creep properties of the alloy were investigated.The results show that the alloy exhibit particle dynam...Mg-3.0Nd-0.4Zn-0.4Zr magnesium alloy were prepared by cast-extruding and chip-extruding.Microstructure,tensile and creep properties of the alloy were investigated.The results show that the alloy exhibit particle dynamic recrystallization during extrusion.The cast extruded-T6 rods at room temperature have a highest tensile strength of 258.5 MPa and a highest yield strength of 135.7 MPa.With the increase of test temperature,the strength of the alloy declines and the elongation increases.At 473 K,creep strain in the primary creep stage increases with increasing the creep stresses.Under 110 MPa,time spent during primary creep decreases with increasing the test temperatures.Stress exponent and creep activation energy of the alloy are 4.4 and 104 kJ/mol,respectively.Creep of the alloy can be controlled by dislocation climb mechanism.The morphology of the fracture surfaces was examined by employing scanning electron microscope.展开更多
基金Project (2009AA033501) supported by the High-tech Research and Development Program of China
文摘Pouring and mold temperatures are two important parameters during casting magnesium components. The present study examined their influence on hot tearing susceptibility (HTS) of commercial AZ91D and newly developed Mg-3Nd-0.2Zn-Zr (mass fraction, %; NZ30K) magnesium alloys in gravity permanent mold casting condition. The results indicate that mold temperature shows much more significant influence on the HTS of both alloys than pouring temperature whose influence only can be distinguished at low mold temperature (341 K for AZ91D alloy and 423 K for NZ30K alloy). Hot tearing susceptibility prediction model concerning feeding parameters, grain size and solidification range, is more suitable to estimate the HTS of different magnesium alloys than the model only concerning feeding parameters. In order to achieve better hot tearing resistance, the ranges of pouring and mold temperatures are suggested to be 961-991 K and≥641 K for AZ91D alloy, 1003-1033 K and≥623 K for NZ30K alloy, respectively.
基金supported by the National Natural Science Foundation of China(Nos.U2037601,51775334 and 51821001)the National Key Research&Development Program of China(No.2016YFB0701205)+2 种基金the Joint Innovation Fund of CALT and College,China(No.CALT2020-TS07)the Open Fund of State Key Laboratory of Advanced Forming Technology and Equipment,China(No.SKL2020005)the Research Program of Joint Research Center of Advanced Spaceflight Technologies,China(No.USCAST2020-14).
文摘This work investigated the effects of different Y additions(0,1.5,3.0 and 4.5 wt.%)on the microstructural evolution and mechanical performance of cast Mg−3Nd−0.2Zn−0.5Zr alloy.The results show that as the Y content increases,the key secondary phases in as-cast alloys change from the Mg_(12)Nd type to the Mg_(24)Y_(5) type.Meanwhile,the number density of Zn−Zr particles in the grains of as-quenched alloys gradually decreases.HAADF-STEM observations of peak-aged samples reveal that element Y is greatly enriched in the globularβ¢precipitates,leading to a significantly increased volume fraction and promoted precipitation kinetics ofβ¢precipitates,resulting in enhanced strength of the alloy.Tensile tests reveal that,with the addition of 4.5 wt.%Y,the yield strength of the base alloy is substantially increased by 88 and 61 MPa after being aged at 200 and 225°C under peak-aged conditions,respectively.
基金The authors gratefully acknowledge the financial support by the Chinese National Science Foundation(No.50674038No.50974048)the HarBin Science and Technology Burean(No.2011RFQXG020).
文摘Mg-3.0Nd-0.4Zn-0.4Zr magnesium alloy were prepared by cast-extruding and chip-extruding.Microstructure,tensile and creep properties of the alloy were investigated.The results show that the alloy exhibit particle dynamic recrystallization during extrusion.The cast extruded-T6 rods at room temperature have a highest tensile strength of 258.5 MPa and a highest yield strength of 135.7 MPa.With the increase of test temperature,the strength of the alloy declines and the elongation increases.At 473 K,creep strain in the primary creep stage increases with increasing the creep stresses.Under 110 MPa,time spent during primary creep decreases with increasing the test temperatures.Stress exponent and creep activation energy of the alloy are 4.4 and 104 kJ/mol,respectively.Creep of the alloy can be controlled by dislocation climb mechanism.The morphology of the fracture surfaces was examined by employing scanning electron microscope.
