The flow stress features of PM Ti-47Al-2Cr-0.2Mo alloy were studied by isothermal compression in the temperature range from 1000 to 1150 °C with strain rates of 0.001-1 s-1 on Gleeble-1500 thermo-simulation machi...The flow stress features of PM Ti-47Al-2Cr-0.2Mo alloy were studied by isothermal compression in the temperature range from 1000 to 1150 °C with strain rates of 0.001-1 s-1 on Gleeble-1500 thermo-simulation machine.The results show that the deformation temperature and strain rate have obvious effects on the flow characteristic,and the flow stress increases with increasing strain rate and decreasing temperature.The processing maps under different deformation conditions were established.The processing maps of this alloy are sensitive to strains.The processing map at the strain of 0.5 exhibits two suitable deformation domains of 1000-1050 °C at 0.001-0.05 s-1 and 1050-1125 °C at 0.01-0.1 s-1.The optimum parameters for hot working of the alloy are deformation temperature of 1000 °C and strain rate of 0.001 s-1 according to the processing map and microstructure at true strain of 0.5.展开更多
A high-purity Ti-48Al-2Nb-2Cr alloy powder with an oxygen content as low as 0.0572 wt.%and a particle size of<150μm was produced from a mixture of TiO_(2),Al_(2)O_(3),Nb_(2)O_(5),and Cr_(2)O_(3)powders through red...A high-purity Ti-48Al-2Nb-2Cr alloy powder with an oxygen content as low as 0.0572 wt.%and a particle size of<150μm was produced from a mixture of TiO_(2),Al_(2)O_(3),Nb_(2)O_(5),and Cr_(2)O_(3)powders through reduction with magnesium and deoxidation with calcium.The phase and composition of the products were analyzed.The final product mainly includedγ-TiAl and minorα_(2)-Ti_(3)Al phases,and Ti,Al,Cr,and Nb were homogenously distributed in the powder with a mole ratio of 49.73:43.51:2.05:1.98.The reduction and deoxidation mechanisms were investigated by thermodynamic modeling using the HSC Chemistry software and Pandat software based on the Ti alloy database.展开更多
The effect of rutile(TiO_2) content on the wear and microhardness properties of aluminium(Al)-based hybrid composites was explored. The proposed content of TiO_2(0, 4%, 8%, 12%, mass fraction) was blended to Al-...The effect of rutile(TiO_2) content on the wear and microhardness properties of aluminium(Al)-based hybrid composites was explored. The proposed content of TiO_2(0, 4%, 8%, 12%, mass fraction) was blended to Al-15% SiC composites through powder metallurgy(P/M) process. Wear test was conducted using pin-on-disc apparatus under dry sliding conditions. Fabricated preforms were characterized using X-ray diffractometer(XRD), scanning electron microscope(SEM) and energy-dispersive X-ray spectrometer(EDS). Optical micrographs of the composite preforms display uniform distribution of TiO_2 throughout the matrix. Quantitative results indicate that wear resistance and microhardness increase with the increase of TiO_2 content. SEM images unveil that high wear resistance is attributed to high dislocation density of deformed planes and high hardness of TiO_2. SEM images of wear debris display gradual reduction in mean size of debris when TiO_2 content increases. EDS spectra confirm the presence of oxide layer which obviously reduces the effective area of contact between the sliding surfaces thereby lowers the wear loss of composites. The observation concludes that delamination and adhesive wear are the predominant mechanisms.展开更多
基金Project (51174233) supported by the National Natural Science Foundation of ChinaProject (2011CB605500) supported by National Basic Research program of China
文摘The flow stress features of PM Ti-47Al-2Cr-0.2Mo alloy were studied by isothermal compression in the temperature range from 1000 to 1150 °C with strain rates of 0.001-1 s-1 on Gleeble-1500 thermo-simulation machine.The results show that the deformation temperature and strain rate have obvious effects on the flow characteristic,and the flow stress increases with increasing strain rate and decreasing temperature.The processing maps under different deformation conditions were established.The processing maps of this alloy are sensitive to strains.The processing map at the strain of 0.5 exhibits two suitable deformation domains of 1000-1050 °C at 0.001-0.05 s-1 and 1050-1125 °C at 0.01-0.1 s-1.The optimum parameters for hot working of the alloy are deformation temperature of 1000 °C and strain rate of 0.001 s-1 according to the processing map and microstructure at true strain of 0.5.
基金financially supported by the National Natural Science Foundation of China(No.52004342)Innovation-driven Project of Central South University,China(No.502501015)the Natural Science Fund for Distinguished Young Scholar of Hunan Province,China(No.2019JJ20031)。
文摘A high-purity Ti-48Al-2Nb-2Cr alloy powder with an oxygen content as low as 0.0572 wt.%and a particle size of<150μm was produced from a mixture of TiO_(2),Al_(2)O_(3),Nb_(2)O_(5),and Cr_(2)O_(3)powders through reduction with magnesium and deoxidation with calcium.The phase and composition of the products were analyzed.The final product mainly includedγ-TiAl and minorα_(2)-Ti_(3)Al phases,and Ti,Al,Cr,and Nb were homogenously distributed in the powder with a mole ratio of 49.73:43.51:2.05:1.98.The reduction and deoxidation mechanisms were investigated by thermodynamic modeling using the HSC Chemistry software and Pandat software based on the Ti alloy database.
文摘The effect of rutile(TiO_2) content on the wear and microhardness properties of aluminium(Al)-based hybrid composites was explored. The proposed content of TiO_2(0, 4%, 8%, 12%, mass fraction) was blended to Al-15% SiC composites through powder metallurgy(P/M) process. Wear test was conducted using pin-on-disc apparatus under dry sliding conditions. Fabricated preforms were characterized using X-ray diffractometer(XRD), scanning electron microscope(SEM) and energy-dispersive X-ray spectrometer(EDS). Optical micrographs of the composite preforms display uniform distribution of TiO_2 throughout the matrix. Quantitative results indicate that wear resistance and microhardness increase with the increase of TiO_2 content. SEM images unveil that high wear resistance is attributed to high dislocation density of deformed planes and high hardness of TiO_2. SEM images of wear debris display gradual reduction in mean size of debris when TiO_2 content increases. EDS spectra confirm the presence of oxide layer which obviously reduces the effective area of contact between the sliding surfaces thereby lowers the wear loss of composites. The observation concludes that delamination and adhesive wear are the predominant mechanisms.
