The microstructure and hydrogen storage properties of low V content (Ti0.46Cr0.54)100-xVx (x = 2.5-7.1, at%) and (TiyCr1-y)95V5 (y= 0.38-0.54) alloys were investigated. These alloys were prepared by arc meltin...The microstructure and hydrogen storage properties of low V content (Ti0.46Cr0.54)100-xVx (x = 2.5-7.1, at%) and (TiyCr1-y)95V5 (y= 0.38-0.54) alloys were investigated. These alloys were prepared by arc melting and copper mould suction casting. The structures of as-cast (Ti0.46Cr0.54)100-xVx (x = 2.5, 5.0, and 7.1) alloy ingots evolve with V contents from pure Laves-(x = 2.5) to dual-phase TiCr2-BCC structures (5.0 and 7.1), whereas the suction-cast (Ti0.46Cr0.54)100-xVx (x =2.5, 5.0, and 7.1) alloys only contain single BCC phase. The suction-cast alloy rod (Ti0.46Cr0.54)95V5, containing only 5.0 at% V is shown to possess the optimum hydrogen absorption capacity, with the maximum hydrogen content of 3.14 wt%. Furthermore, the hydrogen storage properties of the suction-cast low V alloys (TiyCr1-y)95V5 (y = 0.38-0.54) are sensitive to Ti/Cr ratios and only those alloys with Ti/Cr ratios close to the CN14 cluster [TiTCrs] have good hydrogen storage properties.展开更多
The bulk nanocomposite magnets of Nd9Fes1-xTi4C2Nb4Bx (x= 11, 13, 15) in sheet form with the thickness of 0.7 mm were prepared by copper mold suction casting and subsequently annealing. The microstructure evolution ...The bulk nanocomposite magnets of Nd9Fes1-xTi4C2Nb4Bx (x= 11, 13, 15) in sheet form with the thickness of 0.7 mm were prepared by copper mold suction casting and subsequently annealing. The microstructure evolution and magnetic properties of bulk magnets were studied. It was shown that the as-cast microstmcture ofbtflk alloys were composed ofNdEFe14B, a-Fe, FeaB crystalline phases and an amorphous matrix, and that the glass formability of alloy was improved with increasing the B content. The DSC analysis showed that the as-cast bulk alloys had the crystallization behavior of a two-step process. After annealing at the temperatures which was 40453 K higher than their onset temperatures of the second exothermic peak, Nd9Fe81 xTi4C2Nb4Bx (x=11, 13, 15) bulk alloys obtained a finely mixed structure which were composed of Nd2Fe14B, a-Fe, Fe3B, (Nb,Ti)C crystalline phases and a residual amorphous phase, whose magnetic properties were significantly enhanced. For the bulk magnets of Nd9Fes1-xTi4CENb4Bx (x=11, 13, 15), the optimal magnetic properties of Br=0.63 T, iHc= 155.1 kA/m, (BH)max= 18.73 kJ/m3 could be achieved when x= 13 after annealing at 983 K for 10 min.展开更多
Bulk amorphous crystal and microcrystal for Pr60Cu(20-x)Ni10Al10Fex (x = 0, 8, 15, 20) with the diameter ofΦ2 ~ 6 mm were manufactured by electric arc smelting, high frequency heating and copper mold upper suction ca...Bulk amorphous crystal and microcrystal for Pr60Cu(20-x)Ni10Al10Fex (x = 0, 8, 15, 20) with the diameter ofΦ2 ~ 6 mm were manufactured by electric arc smelting, high frequency heating and copper mold upper suction casting, and its structure was analyzed by X-ray diffract meter. It showed soft magnetic characteristic gradually when Fe content in it was up to 8% . The material was applied to magnetic-electric sensor as key component, output signal of which was measured with the change of Fe content. It shows that the signal changes from weak to strong with the increase of Fe content and presents the largest peak value when Fe is replaced by Cu completely.展开更多
基金financially supported by the National Natural Science Foundation of China(Nos.51171035 and 11174044)
文摘The microstructure and hydrogen storage properties of low V content (Ti0.46Cr0.54)100-xVx (x = 2.5-7.1, at%) and (TiyCr1-y)95V5 (y= 0.38-0.54) alloys were investigated. These alloys were prepared by arc melting and copper mould suction casting. The structures of as-cast (Ti0.46Cr0.54)100-xVx (x = 2.5, 5.0, and 7.1) alloy ingots evolve with V contents from pure Laves-(x = 2.5) to dual-phase TiCr2-BCC structures (5.0 and 7.1), whereas the suction-cast (Ti0.46Cr0.54)100-xVx (x =2.5, 5.0, and 7.1) alloys only contain single BCC phase. The suction-cast alloy rod (Ti0.46Cr0.54)95V5, containing only 5.0 at% V is shown to possess the optimum hydrogen absorption capacity, with the maximum hydrogen content of 3.14 wt%. Furthermore, the hydrogen storage properties of the suction-cast low V alloys (TiyCr1-y)95V5 (y = 0.38-0.54) are sensitive to Ti/Cr ratios and only those alloys with Ti/Cr ratios close to the CN14 cluster [TiTCrs] have good hydrogen storage properties.
基金Project supported by National Natural Science Foundation of China(51174121)Zhejiang Province Science and Technology Innovation Team of Key Projects(2010R50016-30)
文摘The bulk nanocomposite magnets of Nd9Fes1-xTi4C2Nb4Bx (x= 11, 13, 15) in sheet form with the thickness of 0.7 mm were prepared by copper mold suction casting and subsequently annealing. The microstructure evolution and magnetic properties of bulk magnets were studied. It was shown that the as-cast microstmcture ofbtflk alloys were composed ofNdEFe14B, a-Fe, FeaB crystalline phases and an amorphous matrix, and that the glass formability of alloy was improved with increasing the B content. The DSC analysis showed that the as-cast bulk alloys had the crystallization behavior of a two-step process. After annealing at the temperatures which was 40453 K higher than their onset temperatures of the second exothermic peak, Nd9Fe81 xTi4C2Nb4Bx (x=11, 13, 15) bulk alloys obtained a finely mixed structure which were composed of Nd2Fe14B, a-Fe, Fe3B, (Nb,Ti)C crystalline phases and a residual amorphous phase, whose magnetic properties were significantly enhanced. For the bulk magnets of Nd9Fes1-xTi4CENb4Bx (x=11, 13, 15), the optimal magnetic properties of Br=0.63 T, iHc= 155.1 kA/m, (BH)max= 18.73 kJ/m3 could be achieved when x= 13 after annealing at 983 K for 10 min.
文摘Bulk amorphous crystal and microcrystal for Pr60Cu(20-x)Ni10Al10Fex (x = 0, 8, 15, 20) with the diameter ofΦ2 ~ 6 mm were manufactured by electric arc smelting, high frequency heating and copper mold upper suction casting, and its structure was analyzed by X-ray diffract meter. It showed soft magnetic characteristic gradually when Fe content in it was up to 8% . The material was applied to magnetic-electric sensor as key component, output signal of which was measured with the change of Fe content. It shows that the signal changes from weak to strong with the increase of Fe content and presents the largest peak value when Fe is replaced by Cu completely.
