1) amorphous SiCN
非晶SiCN陶瓷
1.
X-ray diffraction and transmission electron microscope were employed to study crystallization process of amorphous SiCN after annealing at temperature from 1700℃ to 1900℃ in vacuum.
借助X射线衍射仪、透射电子显微镜研究了真空环境中非晶SiCN陶瓷在1300~1900℃范围内的晶化行为,并根据研究结果,运用分解-结晶机理解释了其晶化过程。
2) amorphous ceramic
非晶陶瓷
4) glass ceramic
微晶陶瓷
1.
The Ag2O-CaO-Fe2O3-SiO2 glass ceramics were prepared by sol-gel method and crystallization process.
通过溶胶-凝胶法制备Ag2O-CaO-Fe2O3-SiO2系基础玻璃,采用晶化工艺制得该系抗菌微晶陶瓷,利用DSC、SEM和XRD等技术和动力学理论探讨该体系的晶化机理,计算不同ZnO含量的玻璃析晶活化能,研究ZnO含量变化对玻璃晶化的影响。
5) glass-ceramics
微晶陶瓷
1.
The results indicate that a white glass-ceramics can be obtained with homogeneous dense microstructure and excellent abrasion resistance by suitable heat treatment.
结果表明 :在一定热处理制度下 ,可制备结构均匀致密、耐磨性极好的白色微晶陶瓷 ,其主晶相为硅灰石和透辉石 ;随着CaO/MgO比的降低 ,微晶陶瓷的晶化温度提高 ,透辉石型晶体含量增加 ,耐磨性提高。
2.
For its excellent abrasion resistance,corrosion resistance and mechanical,thermal,electrical properties,glass-ceramics has been one of hot issues in research and application of novel ceramic materials.
微晶陶瓷是由玻璃原位析晶而获得的一种结构均匀、致密 ,晶粒尺寸为纳米或亚微米级的高技术新型陶瓷材料。
3.
Progress in research and development of biomedical glass-ceramics is reviewed in detail as well as strengthen methods and mechanism in a physiological environment.
综述了生物医用微晶陶瓷的研究进展以及生物医用微晶陶瓷在人体生理环境中的反应机理和补强增韧方法的现状研究。
6) ceramic whisker
陶瓷晶须
补充资料:玻璃陶瓷(见微晶玻璃)
玻璃陶瓷(见微晶玻璃)
glass ceramics
玻璃陶瓷glass eeramies见微晶玻璃。
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