铝硅玻璃

lǚ guī bō li
  • aluminosilicate glass
铝硅玻璃铝硅玻璃
铝硅玻璃[lǚ guī bō li]
  1. 铝硅玻璃中Fe~(3+)、Cr~(3+)的EPR研究

    Study on EPR of Fe ~ ( 3 + ) and Cr ~ ( 3 + ) ions in aluminum-silica glasses

  2. 碳化硅纤维增强锂铝硅玻璃陶瓷界面粗糙度研究

    Study of interfacial roughness of SiC fiber reinforced Las glass-ceramics

  3. 掺钕锂铝硅玻璃陶瓷制备和发光性能研究

    Synthesis and Luminescence Properties of Nd3 + - Doped Lithium Aluminosilicate Glass-Ceramics

  4. 采用体积比为1:1的钙铝硅玻璃和铅硼硅玻璃作为复合无机粘结相,最佳烧结温度在865℃;

    When the volume ratio is 1:1 , the best sintering temperature is 865 ℃ .

  5. 铒掺杂钠铝硅玻璃成分对其光谱性质的影响

    Effects of Composition on Spectroscopic Properties of Er ~ ( 3 + ) - doped Na_2O-Al_2O_3-SiO_2 Glasses

  6. 并且用含有Fe~(3+)离子的多晶样品&莫来石的玻璃样品进行了实验比较,最终认为铝硅玻璃和莫来石中的Fe~(3+)离子附近的局部环境类似。

    The experimental results of polycrystalline mullite sample and glasses which contained Fe3 + ion show that the local environment of Fe3 + ions in both materials are similar .

  7. Li取代及矿物比例对锂铝硅微晶玻璃析晶的影响

    Effect of Li_2O Contents and Spodumene Proportion on Crystallization of Lithium Aluminosilicate Glass-ceramic

  8. 正交试验法研究锂锌铝硅微晶玻璃的热处理工艺

    Research on heat treatment process of Li_2O-ZnO-Al_2O_3-SiO_2 glass-ceramics by orthogonal testing method

  9. F/TiO2对锂铝硅微晶玻璃析晶的影响

    Effect of F and TiO_2 on the Crystallization of Lithium Aluminosilicate Glass-ceramics

  10. 锂铝硅微晶玻璃结构与性能热稳定性研究

    Stability of Microstructure and Properties of Transparent Li_2O-Al_2O_3-SiO_2 Glass-ceramics

  11. 通过增加体系中钙铝硼硅玻璃的质量分数,最终实现了材料在900℃下充分致密化。

    The material achieved densification at 900 ℃ by increasing the amount of CAS glass .

  12. 锂铝硅微晶玻璃

    Lithium Aluminosilicate Glass - Ceramics

  13. 研究结果表明:氟离子的引入降低了锂铝硅微晶玻璃晶化温度,无氟锂铝硅玻璃的晶化温度在870℃以上,而含氟微晶玻璃在760℃左右。

    The results showed that added fluoride could decrease crystallization temperature of LAS glass from 870 ℃ to 760 ℃ .

  14. 目前,锂铝硅微晶玻璃生产成本高,能源消耗大,高性能产品实际生产不易实现,影响了市场应用。

    At present , the production cost and energy consumption are too high for LAS glass ceramic and enhancing its performance are too difficult , which restrict its application markets .

  15. 为实现较低的热膨胀系数,我们设计了不同的钙铝硼硅玻璃组分并通过熔融法制备了玻璃。

    In order to achieve low thermal expansion constant , we properly designed different compositions of the CaO-Al2O3-SiO2 ( CAS ) glass and prepared the glass by high temperature molten method .

  16. 钒、钕对锂铝硅微晶玻璃析晶与着色的影响最后,玻璃制品将被人工地分为透明玻璃、色玻璃、珀色玻璃与绿色玻璃。

    Effect of Vanadium and Neodymium on Crystallization and Coloration of Transparent Li_2O-Al_2O_3-SiO_2 Glass-Ceramics Finally , the glass is separated by hand into clear , brown , amber and green glass .

  17. La2O3对锂铝硅系统微晶玻璃的影响

    The Effect of Rare Earth Oxide La_2O_3 on the Li_2O-Al_2O_3-SiO_2 Glass-Ceramics

  18. 含Y2O3的锂铝硅系统微晶玻璃

    Li_2O-Al_2O_3-SiO_2 System Glass-Ceramics Added with Y_2O_3

  19. MgO/ZnO对锂铝硅系微晶玻璃性能的影响

    Influence of MgO / ZnO on the Properties of LAS Glass-ceramic

  20. 硼铝硅系透明玻璃陶瓷晶粒生长动力学研究

    Study on Kinetics of Crystal Growth in Transparent Boron Aluminosilicate Glass-ceramics

  21. 氧化铈对浮法锂铝硅系统微晶玻璃粘度和结构的影响研究

    Study on viscosity and structure in floating Lithium aluminosilicate glass-ceramics

  22. 锂铝硅透明微晶玻璃着色研究

    Study on the Colouration of Li_2O-Al_2O_3-SiO_2 Transparent Glass Ceramics

  23. 钙铝硅系微晶玻璃结构与耐磨性的研究

    Research of Microstructure and Wear-Resistance on the CaO-Al_2O_3-SiO_2 Glass-ceramics

  24. 锂铝硅透明微晶玻璃的发朦现象研究

    Study on Hazed Samples of Transparent Lithium Aluminosilicate Glass-Ceramics

  25. 锂铝硅系统微晶玻璃热处理制度优化研究

    Investigation on schedule of heat treatment for lithium - aluminum - silicate glass ceramics

  26. 锂铝硅系微晶玻璃研究与应用现状

    Research and application prospect of Las glass ceramics

  27. 钙铝硅系微晶玻璃残余应力的初探

    Analyse on Residual Stresses in CaO-Al_2O_3-SiO_2 System Glass-ceramics

  28. MgO、ZnO对锂铝硅系统透明微晶玻璃性能的影响

    Influence of MgO and ZnO on the properties of LAS transparent glass-ceramic

  29. 采用溶胶固化法制备了碳纤维(C_f)补强的锂铝硅(LAS)玻璃陶瓷复合材料。

    Carbon fiber-reinforced composites with LAS glass-ceramic matrix were prepared by using LAS sol as the binder .

  30. 碳纤维/锂铝硅(LAS)玻璃陶瓷的界面结构及界面反应

    The interfacial structure and reaction of carbon fiber / lithium aluminum silicate Glass-Ceramic Composites