1) wet-acoustic chemical method
湿声化学法
1.
Synthesis of PZT(52/48) powders by wet-acoustic chemical method;
湿声化学法制备PZT(52/48)压电陶瓷粉体
2) wet chemical methods
湿化学法
1.
Research progress in preparation of quasi one-dimensional nanosized materials by wet chemical methods;
湿化学法制备准一维纳米材料的研究进展
2.
Comparing with the conventional ones,WO3 nano-powder prepared by wet chemical methods is thinner and more on the control of distribution of grain degree,and it’s with good uniformity and dispersivity.
综述了目前国内外湿化学法制备纳米WO3粉体的主要方法:水解法、沉淀法、溶胶-凝胶法、水热合成法及微乳液法,并对各种制备方法的优缺点进行了简要的讨论。
3) wet chemical method
湿化学法
1.
Synthesis and performance of chromium-doped spinel lithium manganese oxide prepared by wet chemical method;
掺铬锂锰氧化物的湿化学法合成与性能
2.
The optically variable pigments were produced by wet chemical method,and mica titanium having interference colors acted as host materials.
采用具有干涉色的云母钛作为基质材料,通过湿化学法制备随角异色功能颜料。
3.
4))O_3 porcelain powder is prepared by wet chemical method and it is characterized by X-ray Diffraction(XRD),infrared( IR),transmission electronic microscope(TEM).
针对微波介质瓷料系统成瓷过程中介电损耗较大且成瓷温度较高的问题,采用湿化学法制备(Ag0。
4) wet-chemical method
湿化学法
1.
Nanocrystalline YAG powders and translucent ceramics by wet-chemical method;
湿化学法合成YAG纳米粉体及透明陶瓷
2.
Nanocrystalline α-Al2O3 powder was prepared by a wet-chemical method calcining the dry NH4Al(OH)2CO3 precursor synthesized from NH4Al(SO4)2 and NH4HCO3.
以湿化学法制备的纳米α-Al_2O_3粉体作为添加剂,MgO和SiO_2为烧结助剂,对商用γ-Al_2O_3粉体预处理后,采用无压烧结工艺,有效的降低了烧结温度。
3.
(Luoyang Institute of Refractories Research, Ministry of Metallurgical Industry) ABSTRACT Sb_1O_3-doped SnO_2 semiconductor ceramics was prepared by means of wet-chemical method and thick film technology and its ethanol-sensing characteristics were measured.
采用湿化学法和厚膜技术制备了掺Sb_2O_2的SnO_2半导体陶瓷以测试其酒敏特性。
5) wet chemistry
湿化学法
1.
Although it has been reported about the filling or coating of carbon nanotubes with monometal (or metal oxides), it is only our group to do attempting work for metal alloy nanoparticles to fill or coat carbon nanotubes via wet chemistry.
尽管单金属(金属氧化物)填充或包覆碳纳米管已见报道,但用湿化学法将金属合金纳米粒子填充和包覆碳纳米管形成一维纳米复合材料仅本课题组做了尝试性的工作。
补充资料:容量分析法(见化学分析法)
容量分析法(见化学分析法)
容t分析法见化学分析法
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