1) sealing glass-ceramic
封接微晶玻璃
1.
Present research situation and development direction of environmental-friendly low-melting sealing glass-ceramic;
环保型低熔封接微晶玻璃研究现状及发展方向
2) Low-melting sealing glass-ceramic
低熔封接微晶玻璃
1.
Low-melting sealing glass-ceramic is an advanced sealing material, which is widely used in many fields due to its low melting temperature and sealing temperature, excellent mechanical strength and chemical stability.
低熔封接微晶玻璃是一种先进的焊接材料,由于其具有低的熔化温度和封接温度,优良的机械强度和化学稳定性,而在很多领域中得到广泛的应用,实现了玻璃、陶瓷、金属、半导体间的相互封接。
3) sealing glass
封接玻璃
1.
Structure and properties of ternary SnO-BaO-P_2O_5 lead-free sealing glasses;
SnO-BaO-P_2O_5系统无铅封接玻璃的结构与性质
2.
The crystal dielectric sealing glasses were prepared,in this paper,based on the Li_2O-B_2O_3-SiO_2 system with few additions.
以Li2O-B2O3-SiO2系统为基础,添加少量外加剂,制备了结晶型电绝缘封接玻璃。
3.
The PbO system and the Bi_2O_3 system sealing glass ceramics with low melting temperature and high expansion coefficient were successfully prepared by sintering and crystallization and using PbO or Bi_2O_3,CaO,H_3BO_3,SiO_2,MgO and ZnSO_4·7H_2O as raw materials.
以氧化铅或氧化铋、氧化钙、硼酸、硫酸锌、二氧化硅和氧化镁为原料,通过高温熔融和微晶化,成功地制备出具有低熔点高膨胀系数的PbO系统微晶封接玻璃和Bi2O3系统微晶封接玻璃。
4) glass sealing
玻璃封接
1.
Improvement of electroplating technology on electrical connector after glass sealing with KOVAR alloy as substrate;
可伐合金玻璃封接电连接器电镀工艺改进
5) glass-ceramics
微晶玻璃
1.
Preparation of glass-ceramics for decorative building by cracked-glass crystallization technology;
裂纹玻璃晶化法制备建筑装饰用微晶玻璃
2.
Effect of ZnO Additive On Performance and Microstructure of Glass-ceramics based On Composite Tailings;
ZnO添加剂对复合尾矿微晶玻璃的性能及显微结构的影响
3.
Preparation of Glass-ceramics Using Pyrite Tailings;
利用硫铁矿尾矿制备微晶玻璃
6) glass ceramic
微晶玻璃
1.
Spectroscopic properties of Er~(3+) doped transparent glass ceramic;
Er~(3+)掺杂透明微晶玻璃光谱性质的研究
2.
Application of coal solid waste in glass ceramic;
煤炭固体废物在微晶玻璃中的应用
3.
The crystal phases of glass ceramics are diopside ferrian and hedenbergite.
利用熔融法制备矿渣微晶玻璃。
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