1) Fillerless coprecipitation
无滤共沉淀
2) 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
3) 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
4) Co-precipitation
共沉淀
1.
Preparation of α-Tricalcium Phosphate by Co-precipitation;
共沉淀法制备α-磷酸三钙
2.
Preparation of Zr/Si-Al composite oxide support via co-precipitation;
共沉淀法制备Zr/Si-Al复合氧化物载体的研究
3.
Factors affecting co-precipitation in preparation of CeNi_5 hydrogen storage alloys;
储氢合金CeNi_5制备中共沉淀的影响因素研究
5) co-precipitation
共沉淀法
1.
Influences of precipitation temperature on LaMnAl_(11)O_(19) catalysts prepared by co-precipitation;
温度对共沉淀法制备LaMnAl_(11)O_(19)催化剂的影响
2.
Studies on the preparation,structure and spectral character of YAG,Nd∶YAG nano-powder by co-precipitation method;
共沉淀法YAG、Nd∶YAG纳米粉体的制备、结构与光谱性能研究
3.
Preparation of ultra-fine indium tin oxide powders with high specific surface areas by co-precipitation method;
共沉淀法制备高比表面积的铟锡氧化物超细粉末
6) co-precipitation method
共沉淀
1.
Synthesis of negative thermal expansion material ZrW_2O_8 through co-precipitation method;
共沉淀法制备负膨胀系数材料ZrW_2O_8
2.
Preparation of the red phosphor CaCO_3:Eu~(3+) by lower temperature co-precipitation method
低温共沉淀法合成红色荧光粉CaCO_3:Eu~(3+)
3.
Yb3+∶Y2O3 nanocrystalline powder was prepared by co-precipitation method using a matrix material of Y2O3 doped with different concentrations of Yb3+, and the Yb3+∶Y2O3 transparent ceramics was fabricated by vacuum sintering at 1 700 ℃, 1×10-3 Pa for 5 h.
以Y2O3为基质材料,掺杂不同含量的Yb3+,采用共沉淀法制备出性能良好的Yb3+∶Y2O3纳米粉,将粉体在1700℃和真空度为1×10-3Pa下烧结5h得到Yb3+∶Y2O3透明陶瓷。
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。
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