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作 者:唐振方[1] 钟红海[1] 黄景清[1] 凌育远[1] 曾润莲[1] 莫党[2]
机构地区:[1]中国广州分析测试中心,广州510070 [2]中山大学物理系,广州510275
出 处:《无机材料学报》1997年第4期505-510,共6页Journal of Inorganic Materials
基 金:广东省自然科学基金!930175
摘 要:以硝酸盐水溶液为原料、高频感耦等离子体为加热源、超声雾化热解的方法制备CuO/Al2O3粉体.研究发现,溶液浓度及等离子体参数条件对粉体初始态的特性有很大影响,浓度越低;粉体越细.纯Al2O3粉为位径在1μm左右的空心球或壳状碎片,CuO粉由无定型海绵体与平均粒度为20nm的超细粒子组成.混合溶液制得的粉体形貌随着Cu/Al原子比的变化而变化,CuO与Al2O3熔点温度相差较大是导致杨体生成微观过程不同的主要原因.CuO/Al2O3 powders were prepared from aqueous solution by ultrasonic spray pyrolysis in the toil plume region of high-frequency inductively coupled plasma. The morphology of the initial powders varied with the atomic ratio of Cu/Al and the concentration in Cu(NO3)2-Al(NO3)3 solution. Al2O3 powders had spherical internal void structure and some shell fragments. CuO powders composed of a mixture of amorphous and ultrafine crystallite, some tens of nanometres in size. The compound powders of CuO/Al2O3, with Cu/Al atomic ratio 1:1, had a similar morphology to pure CuO powders. The diversity of fusing point between CuO and Al2O3 was the main factor to cause the different micro-processes of powder formation in h.f thermal plasma with a plate power about 1kW.
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