1) coprecipitation temperature
共沉淀温度
1.
The influences of coprecipitation temperature and pH value on the particle size and powder resistance have been investigated.
比较系统地研究了共沉淀温度和 p H值对粉末颗粒度和电阻的影响规律 。
2) precipitation temperature
沉淀温度
1.
The influences of precipitation temperature on the structure and property of the catalysts were investigated by XRD、SEM、BET techniques.
本研究提出以碳酸钠为沉淀剂的共沉淀法制备M n取代的六铝酸盐催化剂,主要讨论共沉淀过程中不同沉淀温度对所制备的六铝酸盐催化剂的影响。
2.
Effects of precipitation temperature on the performance of CuO/ZnO/Al_2O_3/HZSM-5 catalyst for dimethyl ether synthesis from CO_2 hydrogenation were investigated.
考察了沉淀温度对二氧化碳加氢合成二甲醚催化剂CuO-ZnO-Al_2O_3/HZSM-5的影响,研究结果表明,沉淀温度为343K时,所制备的催化剂前驱体的晶形完整且晶相组成均一,焙烧后的催化剂中CuO和ZnO的相互分散程度较好,催化剂中氧化铜物种比较容易还原,复合催化剂表面具有较强的酸性中心,对于二氧化碳加氢直接合成二甲醚的催化活性最为理想。
3) low-temperature coprecipitation method
低温共沉淀法
1.
MnFe_2O_4 nanocrystals were prepared by low-temperature coprecipitation method,high temperature method and hydrothermal method respectively.
本文分别采用低温共沉淀法、高温法和水热法制备MnFe2O4的纳米晶体。
4) microemulsion-co-precipitationheating method
微乳液-共沉淀高温法
5) coprecipitation
['kəupri,sipi'teiʃən]
共沉淀法
1.
Study on the preparation of ceramic powders of ternary pyrochlor containing bismuth by coprecipitation;
共沉淀法制备三元系铋基焦绿石型陶瓷粉体
2.
Study on coprecipitation synthesis and photocatalytic activity of SrFeO_(3-x);
共沉淀法合成铁酸锶及其光催化活性研究
3.
Kinetics of Synthetic of Cl-Type Hydrotalcitelike with Coprecipitation Reaction;
氯离子柱撑水滑石共沉淀法合成反应动力学
6) coprecipitation method
共沉淀法
1.
Preparation of Cu~Ⅰ-containing absorbents by coprecipitation method and their sweetening effect in kerosene;
共沉淀法负载亚铜吸附剂的制备及其脱除煤油中硫醇的研究
2.
Synthesis of nano-sized chrome-magnesium spinel powders by coprecipitation method;
共沉淀法制备纳米镁铬尖晶石粉体
3.
Preparation of nanometer-sized antimony-doped SnO_2 powder in coprecipitation method;
共沉淀法制备掺锑SnO_2纳米级粉体
补充资料:共晶共沉淀
分子式:
CAS号:
性质:共沉淀法之一,指无法结晶的微量物质与常量物质产生共结晶沉淀而被载带出来。
CAS号:
性质:共沉淀法之一,指无法结晶的微量物质与常量物质产生共结晶沉淀而被载带出来。
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