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基于X射线衍射分析方法改进氢氧化亚铁制备实验 被引量:6
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作者 张宏艳 《化学教学》 CAS 北大核心 2021年第5期77-81,共5页
采用X射线衍射技术,分析教材中Fe(OH)_(2)制备实验和已有改进实验所制备产物的化学组成,发现很多实验虽然制备出了能够长时间稳定存在的白色沉淀,但产物并不完全是Fe(OH)_(2)。在此基础上,进一步改进实验试剂和实验装置,使实验微型化和... 采用X射线衍射技术,分析教材中Fe(OH)_(2)制备实验和已有改进实验所制备产物的化学组成,发现很多实验虽然制备出了能够长时间稳定存在的白色沉淀,但产物并不完全是Fe(OH)_(2)。在此基础上,进一步改进实验试剂和实验装置,使实验微型化和绿色化。XRD图谱显示,制得的Fe(OH)_(2)物相组成明显改善。 展开更多
关键词 fe(oh)_(2)制备 实验改进 微型实验装置 X射线衍射
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氢氧化亚铁制备实验改进
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作者 周迪珊 《试题与研究(教学论坛)》 2019年第36期116-116,共1页
利用铁片和稀硫酸反应生成FeSO 4 和H 2 ,产生的H 2 可以排除空气中的氧气。现配制的FeSO 4 与碱反应制取Fe(OH)2 ,既可观察到Fe(OH) 2 白色沉淀,又可通过吸取空气观察到Fe(OH)2 整个变色过程。用注射器和医用三通阀组成的装置简单,操... 利用铁片和稀硫酸反应生成FeSO 4 和H 2 ,产生的H 2 可以排除空气中的氧气。现配制的FeSO 4 与碱反应制取Fe(OH)2 ,既可观察到Fe(OH) 2 白色沉淀,又可通过吸取空气观察到Fe(OH)2 整个变色过程。用注射器和医用三通阀组成的装置简单,操作简便,微型可控,能连续多次重复生成 Fe(OH)2 。 展开更多
关键词 fe(oh)制备 实验改进 注射器 三通阀
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Preparation and characterization of a composite membrane based on the asphaltene component of coal 被引量:7
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作者 Zhang Liying Qin Zhihong Li Xinyan Chen Juan Liu Peng Wang Xiaoyan 《Mining Science and Technology》 EI CAS 2011年第3期407-411,共5页
Asphaltene-ceramic composite membranes were fabricated from ceramic supports and an asphaltene component, which was obtained from the separation of coal to give a kind of new carbonaceous precursor material. Using SEM... Asphaltene-ceramic composite membranes were fabricated from ceramic supports and an asphaltene component, which was obtained from the separation of coal to give a kind of new carbonaceous precursor material. Using SEM and thermogravimetric analysis to measure the microstructure and properties of the asphaltene component allowed the porosity, permeability, and retention ratios to be determined. The results show that the asphaltene component can be regarded as a good carbon membrane precursor material because of its high carbon content and strong bonding capacity. When ceramic supports are impregnated with asphaltene colloid the asphaltene easily combines with the support surface and forms a good carbonaceous film after carbonization. Little of the asphaltene component permeates into the internal pores of the ceramic support. Although the number of coats applied to the substrate had little affect on the porosity of the asphaltene-ceramic composite membranes the permeability varied depend- ing upon the number of times the substrate was treated. The way bubbles escape from the film, and the phenomenon of coalescence, as affected by different film thicknesses also seem closely related to the number of coats. A composite membrane carbonized at a final temperature of 600℃ is relatively dense and the permeability of Fe(OH)3 colloid through it is very low. A membrane fired at 800℃ is porous and its permeability and retention of Fe(OH)3 colloid are 88 L/(m2 h MPa) and 85.3%, respectively when the trans-membrane pressure is 0.22 MPa. 展开更多
关键词 Asphaltene Composite membrane Porosity Permeability feoh)3 colloid
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