1) MO2 (mixed oxide)
混合二氧化物
2) mixed oxide
混合氧化物
1.
A series of La-Co-Ce-O mixed oxide catalysts with different bulk compositions were synthesized using a citric acid complexation-organic template decomposition method.
采用柠檬酸络合-有机模板剂分解法制备了不同原子配比的La-Co-Ce-O混合氧化物催化剂。
2.
The CeO_2-TiO_2 mixed oxide and its corresponding supported catalyst Pd/CeO_2-TiO_2 with Ce/Ti molar ratio of 0 05~0 40 were prepared by sol-gel and supercritical fluid drying method.
以溶胶 凝胶 超临界流体干燥法制备了CeO2 TiO2 混合氧化物(n(Ce) /n(Ti) =0 0 5~0 4 0 ) ,以其为载体,通过等体积浸渍法制备了Pd/CeO2 TiO2 催化剂。
3.
Co-Ni mixed oxide on Ni substrate was prepared by anodic deposition from Co(NO 3) 2-Ni(NO 3) 2 aqueous solution with different Co 2+/Ni 2+ ratios.
利用电化学阳极共沉积技术 ,从含不同Co2 + /Ni2 + 比的NaOH溶液中 ,在Ni基体上制备了Co Ni混合氧化物 。
3) Mix oxide
混合氧化物
1.
The electrochromic mechanism of mix oxide and properties of the device with different thickness of WO 3:TiO 2 are investigated in this paper.
本文考察了 WO3:Ti O2 混合氧化物电致变色的机理及 WO3:Ti O2 厚度不同的器件的电致变色特性。
4) Mixed oxides
混合氧化物
1.
The hydrogen reduction of three non-strochiometric of cobalt-nickel-tung-sten mixed oxides has been studied in the temperature range from 700 to 1000℃using X-ray diffraction analysis and scanning electron microscopy.
本文用X-射线衍射与扫描电镜分析研究了在700~1000℃范围内钨、镍、钴混合氧化物的氢还原。
2.
Using CaCl2 molten as electrolyte, sintered Fe2O3 and TiO2 mixed oxides pallets as cathode, graphite rod as anode, electrolysis was performed at 900 ℃.
在CaCl2熔盐中采用熔盐电解法由阴极的混合氧化物制备组分可控的TiFe合金。
5) mixed rare earth oxide
混合稀土氧化物
1.
The experimental conditions relating to influencing the properties of mixed rare earth oxide fine powders were studied.
用氨水调pH共沉淀法制备混合稀土氧化物微细粉末。
2.
The result sho-tvs that mixed rare earth oxide finepowders can be obtained.
以稀土总量为95%的混合稀土氧化物为原料,用尿素-氧水在熟水溶液中调pH值共沉淀法制备了混合稀土氧化物微细粉末。
3.
The results show that a certain amount of the mixed rare earth oxide content in the batch can increase the cold compression strength and the thermal shock resistance of the bricks.
研究了混合稀土氧化物对粘土砖和高铝砖性能的影响。
6) mixed valence tungsten oxide
混合价钨氧化物
补充资料:混合氧化物燃料
分子式:
CAS号:
性质:由二氧化铀和二氧化钚[约占20%~25%(质量)]制成的混合陶瓷燃料,它用于快堆。优点是熔点高,同包壳和冷却剂的相容性好,优良的辐照稳定性,较好地保持裂变产物,能满足在高温、高中子通量、深燃耗条件下较长时间运行的要求。缺点是金属原子密度低,导热系数低,深燃耗时发生肿胀。
CAS号:
性质:由二氧化铀和二氧化钚[约占20%~25%(质量)]制成的混合陶瓷燃料,它用于快堆。优点是熔点高,同包壳和冷却剂的相容性好,优良的辐照稳定性,较好地保持裂变产物,能满足在高温、高中子通量、深燃耗条件下较长时间运行的要求。缺点是金属原子密度低,导热系数低,深燃耗时发生肿胀。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条