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在不同烧结气氛下采用冷压烧结法制备5Ni/(10NiO-NiFe2O4)金属陶瓷,通过XRD研究其物相组成,SEM研究其显微结构,并用三点抗弯测试和抗热震实验检测其力学性能。结果表明:在真空气氛及氧含量分别为2×10-5、2×10-4和2×10-3的气氛中均可获得Ni/(10NiO-NiFe2O4)金属陶瓷,但气氛中氧含量对物相含量影响较大。在真空气氛中NiO含量相对较高。材料中NiFe2O4和Ni的含量分别随着气氛中氧含量的上升而增加和减小;在真空烧结气氛中,可获得晶粒尺寸为3.90μm的5Ni/(10NiO-NiFe2O4)金属陶瓷,其抗弯强度可达138.59MPa,且在960°C实验条件下平均抗热震循环次数可达6.67次,具有相对较好的力学性能。 相似文献
63.
基于COMSOL仿真平台,建立一维电化学模型,研究放电电流密度、氧气浓度、氧气扩散速率以及Li+扩散系数等因素对电池性能影响。结果表明:当放电电流密度从0.05 m A/cm~2增大到0.5 m A/cm~2时,锂空气电池的放电比容量由1256.4 m A?h/g下降到139.2 m A?h/g;在放电电流密度为0.1m A/cm~2条件下,外界氧气浓度从4.73mol/m~3增加到18.92 mol/m~3时,电池比容量从371.2 m A?h/g增加到1274.5 m A?h/g,表明提高外部环境的氧气浓度有助于提高电池比容量;氧气扩散速率为电池反应的速度控制步骤。当氧气扩散系数从3.5×10-10 m~2/s提高到7×10-9 m~2/s时,电池的容量从373.0 m A?h/g增加到2352.1 m A?h/g;而提高Li+的扩散系数对电池的比容量几乎没有影响。 相似文献
64.
王子衿刘芳洋贾明蒋良兴赖延清李劼 《中国有色金属学报》2021,(5):1320-1329
采用化学水浴法制备Bi2O3薄膜,并通过电沉积结合后退火工艺在其表面负载ZnFe2O4进行改性,通过XRD、SEM、Raman、XPS、UV-vis等对Bi2O3样品及Bi2O3/ZnFe2O4复合薄膜进行表征。以制备的薄膜作为光电极,研究其光电化学性能,并首次报道其在光电催化降解有机污染物中的应用。结果表明:ZnFe2O4的复合拓宽Bi2O3的吸光范围,提高光吸收系数,抑制光电化学反应过程中光生载流子的复合,从而使Bi2O3/ZnFe2O4复合薄膜在Na2SO4溶液中的光响应电流密度是纯相材料的4倍左右,AM1.5光照下的光电降解亚甲基蓝性能相比于Bi2O3有明显提高。 相似文献
65.
The density of cermet inert anodes in aluminum electrolysis is of great importance. Ni-NiFe2O4 cermets were studied with respect to their densification affected by ball milling time, particle size of raw powders, contents of metallic phase, sintering atmosphere and temperature. The results show that, prolonging ball milling time will increase the density with the optimum value of 150 min; cermets containing 0 - 15 % Ni(mass fraction) have high relative density ranging from 94 % to 96%, but with Ni content increasing, the density slightly decreases; weak reductive atmosphere is favorable to densification; the relative density increases from 80.38% to 96.85% with the sintering temperature increasing from 1 100℃ to 1 300℃ while it decreases at 1 400℃, which may be due to crystal grain coarsening. So the sintering temperature of Ni-NiFe2O4 cerrnets in current work should be controlled at 1 300℃, where the relative density is 96.85 %. 相似文献
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1 INTRODUCTIONInrecent years ,therehavebeenincreasingeffortstoimprovetheHall Heroult processintheprimaryaluminiumindustry[1 ] .InordertoovercometheshortagesofHall Heroultprocess ,suchashighconsumptionofelectricalpower ,highconsumptionofcarbonanodeandserious pollutionduetocarbonanodemanufactureandconsumptionetc ,anoveltypeofaluminareducedcellsbasedoninertanodeandwettablecathodesystemwasdevelopedtoreplaceconventionalHall Heroultprocess[2 ,3 ] .Titaniumdiboride(TiB2 )appearstobethebestca… 相似文献
69.
The influences of molar ratio of KOH to C and activated temperature on the pore structure and electrochemical property of porous activated carbon from mesophase pitch activated by KOH were investigated. The surface areas and the pore structures of activated carbons were analyzed by nitrogen adsorption, and the electrochemical properties of the activated carbons were studied using two-electrode capacitors in organic electrolyte. The results indicate that the maximum surface area of 3 190 m2/g is obtained at molar ratio of KOH to C of 5:1, the maximum specific capacitance of 122 F/g is attained at molar ratio of KOH to C of 4:1, and 800 ℃ is the proper temperature to obtain the maximum surface area and capacitance. 相似文献
70.
NiFe2O4 ceramic and NiFe2O4 based cermets, expected to be used as the inert anodes in aluminum electrolysis, were prepared and their electrical resistivities were measured at different temperatures. The effects of temperature and composition on their electrical resistivities were investigated. The results indicate that the electrical resistivities of NiFe2O4 based cermets mainly depend on temperature, resistivity of ceramic matrix, composition and dispersion of the metal phase among ceramic matrix. The electrical resistivity of NiFe2O4 ceramic decreases from 10. 094 Ω · cm to 0. 475 Ω · em with increasing temperature from 573 K to 1 233 K. The electrical resistivities of NiFe2O4 based cermets are greatly lowered, but decrease with increasing the temperature with similar trend compared to that of NiFe2O4 ceramic. The resistivities of NiFe2O4 based cermets containing 5 % Ni, 5 % Cu and 5 % CuNi alloy are 0. 046 8, 0.066 8 and 0. 0532 Ω · cm at 1 233 K, respectively, which are all acceptable as inert anode materials compared to that of the current carbon anode used for aluminum electrolysis. 相似文献