1) CeO 2 ultrathin film
CeO2超薄陶瓷膜
2) ceramic based ultra thin film
陶瓷超薄膜
1.
The processes to prepare sol gel ceramic based ultra thin films are introduced.
介绍了溶胶-凝胶陶瓷超薄膜制备技术,评述了陶瓷超薄膜性能检测方法以及溶胶-凝胶陶瓷薄膜的摩擦学研究和应用进展。
3) ceramic film
陶瓷薄膜
1.
The Zr-Co ceramic film was formed by using the powders after sintering at special temperature.
在调节剂柠檬酸铵的作用下,采用溶胶凝胶法制备了Y稳定的Zr-Co粉体,经高温烧结制得致密陶瓷薄膜。
2.
And finally the dense phosphate ceramic film was formed after sintering at special temperature.
在有机调整剂CTAB的作用下,将磷酸二氢铝溶液用氨水调节pH值在一定温度下合成纳米磷酸铝粉体,然后经高温烧结制得致密陶瓷薄膜。
3.
There are many techniques for fabricating ceramic films such as PVD,CVD,high-temperature sintering and sol-gel method.
陶瓷薄膜的制备技术多种多样,如物理气相沉积、化学气相沉积、高温烧结和"溶胶-凝胶"法等。
5) ceramic thin film
陶瓷薄膜
1.
Most of oxide ceramic thin films have prepared conveniently by ASSP (arrangement of synthesized solid particle) method with common inorganic precussors.
以常用无机盐为前驱体,通过化学合成固相粒子排布(ASSP—arrangementofsynthesizedsolidPartical)途径,可以方便地制备绝大多数氧化物陶瓷薄膜。
2.
The characteristics of methods for preparing ceramic thin films, namely physical and chemical methods, have been elaborated, and the applications of ceramic thin films have been summarized based on their unusual hardness and unique electrical behavior as oxides and non-oxides.
对各种薄膜制备方法的特点(即物理方法、化学方法)进行阐述,并且从氧化物和非氧化物的角度,综述了陶瓷薄膜作为硬质薄膜、气敏薄膜以及铁电、压电等微电子薄膜的应用。
6) ceramic membranes
陶瓷薄膜
1.
Preparation and applications of the composite ceramic membranes;
复合陶瓷薄膜的制备及其分离应用
2.
Surface morphology of A12O3, A12O3-SiO2 and A12O3-SiO2-TiO2 ceramic membranes was investigated by atom force microscope (AFM).
用原子力显微镜(AFM)观察Al2O3、Al2O3-SiO2及Al2O3-SiO2-TiO2复合陶瓷薄膜的表面形貌。
3.
Ceramic membranes and preparation methods are used very extensive and have important affluence on high-technology,national economic and civilian life.
陶瓷薄膜材料和薄膜技术的应用极其广泛,对高科技、国民经济和人民生活都有着重要影响。
补充资料:多孔陶瓷支撑体膜
分子式:
CAS号:
性质:在多孔陶瓷体上附着的微孔陶瓷膜层。膜层厚度一般在几微米到几十微米,外径孔径一般为0.1~0.5μm,个别也有厚度达3~5μm、孔径10μm的。多采用氧化铝、二氧化钛和二氧化锆等作膜材料。制法是:用电机带动陶瓷支撑体旋转,当溶胶液(膜材料)滴落在支撑体上,就会迅速地敷覆到支撑体表面,待溶剂蒸发、凝胶化和干燥成膜后,经热处理而制成氧化物薄膜。现已为食品(含饮料)、医药、生物技术和环境保护等领域开发利用。
CAS号:
性质:在多孔陶瓷体上附着的微孔陶瓷膜层。膜层厚度一般在几微米到几十微米,外径孔径一般为0.1~0.5μm,个别也有厚度达3~5μm、孔径10μm的。多采用氧化铝、二氧化钛和二氧化锆等作膜材料。制法是:用电机带动陶瓷支撑体旋转,当溶胶液(膜材料)滴落在支撑体上,就会迅速地敷覆到支撑体表面,待溶剂蒸发、凝胶化和干燥成膜后,经热处理而制成氧化物薄膜。现已为食品(含饮料)、医药、生物技术和环境保护等领域开发利用。
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