1)  hydrothermal corundum
水热刚玉
2)  hydrothermal method
水热
1.
Application of hydrothermal method in PbS nanocrystals preparation;
水热法在纳米硫化铅制备中的应用
2.
The Mo-V-Te-La catalysts were prepared by hydrothermal method and then dried through microwave heat method.
采用水热合成法并使用微波加热干燥制备了Mo-V-Te-La复合金属氧化物催化剂。
3.
The zinc phosphate has been synthesized by hydrothermal method in the presence of Zn (NO 3) 2·6H 2O,NaBr, H 3PO 4 and NaOH at 70 ℃ in 14 h.
用水热方法 ,以 Zn(NO3) 2 · 6 H2 O、Na Br、H3PO4 、Na OH为反应原料 ,于 70℃反应 14 h合成磷酸锌。
3)  hydrothermal synthesis
水热
1.
Effect of synthesis conditions and the addition of triethanolamine on the hydrothermal synthesis of TS-1 and its properties;
合成条件及添加三乙醇胺对水热法合成TS-1分子筛及其性能的影响
2.
The hydrothermal synthesis method of abio-nanoparticles and it's extending method;
无机纳米材料的水热合成及其衍生方法
4)  hydrothermal treatment
水热
1.
Different hydrothermal treatment methods, including hydrothermal treatment at low temperature, at high temperature, in NaOH solution and hydrothermal treatment after seeding as well, were used to treat the magnesium hydroxide powder.
 采用低温水热、高温水热、氢氧化钠环境水热、引入晶种水热等不同水热工艺制备出超细氢氧化镁粉体。
2.
In the process of preparing magnesium oxysulfate whisker by hydrothermal treatment, the effects of magnesium sulfate, match of raw materials, reaction time, reaction temperature and stirring velocity on whi.
本课题在水热制备碱式硫酸镁晶须的研究中,讨论了硫酸镁浓度(c)、原料配比、反应时间(t_r)、反应温度(T_r)以及搅拌速率(ν)等参数对产品形貌的影响;通过SEM、XRD、TG、BET等手段对晶须产品进行了表征,并结合碱式硫酸镁晶须结构、晶体生长理论对晶须的生长进行了探讨;通过添加有机酸的方法研究了增大晶须长径比的可能性;对于不同的原料体系进行了对比研究,探索研究简单适用的原料体系;对于不同的反应器进行了对比研究,对比了搅拌间歇反应器结合水热反应与定-转子反应器结合水热反应制备碱式硫酸镁晶须产品的不同。
5)  hydrothermal
水热
1.
PZT nanoparticles synthesized by sol-hydrothermal method and properties;
溶胶-水热法合成PZT纳米粉体及性能研究
2.
Influence of Hydrothermal Temperature on Structural and Microstructural Properties of Boehmite;
水热温度对水合氧化铝相结构及微观形貌的影响
3.
The preperation of core-shell nanopowder material by one-step hydrothermal method;
一步水热法制备核壳型纳米粉体研究
6)  hydrothermal
水热法
1.
Hydrothermal Preparation and Luminescence of LaF_3∶Ce, Tb Nano-Sized Phosphor;
水热法制备LaF_3∶Ce,Tb纳米荧光粉及发光性质研究
2.
Adsorption of Pb~(2+) by crystal δ-manganese dioxide prepared by hydrothermal method;
水热法合成δ-MnO_2及其对重金属Pb~(2+)的吸附作用
3.
Synthesis of Fe~(3+)-modified SnO_2 Nanoparticles by Hydrothermal Method;
水热法制备Fe~(3+)改性的SnO_2纳米颗粒
参考词条
补充资料:地下水水资源评价(见水资源评价)


地下水水资源评价(见水资源评价)


  d ixiashui shuiziyuan Ping】ia地下水水资源评价见水资源评价。
  
说明:补充资料仅用于学习参考,请勿用于其它任何用途。