激光陶瓷

  • 网络laser ceramic
激光陶瓷激光陶瓷
  1. 均相沉淀法制备Nd∶YAG透明激光陶瓷材料研究

    Study on Nd ∶ YAG Transparent Laser Ceramic Materials Prepared by the Homogeneous Precipitation Method

  2. 最后指出,Nd∶YAG激光陶瓷很可能在未来几年会取代Nd∶YAG激光晶体的地位。

    It is pointed out that Nd ∶ YAG laser ceramic would possibly take the place of the position of Nd ∶ YAG laser crystal in the coming years .

  3. 碳酸盐共沉淀法制备Er∶YAG透明激光陶瓷粉体

    Preparation of Transparent Laser Ceramics Er ∶ YAG by Carbonate Co-precipitation Method

  4. 稀土掺杂YAG透明激光陶瓷的粉体制备研究

    Preparation of Powders for Rare Earth Doping Transparent Laser YAG Poly-crystalline Ceramics

  5. YAG调Q激光陶瓷基板划片机

    Ceramic Substrate Nd : YAG Q-Switching Laser Cutter

  6. 分析了YAG调Q激光陶瓷基板划片的机理。

    The mechanism of cutting ceramic substrate by using Nd : YAG Q-switching laser was analyzed .

  7. 碳酸铵均相共沉淀法制备Nd∶YAG透明激光陶瓷纳米粉体

    Preparation of Nd ∶ YAG nanometer powders used for transparent laser creamics by ammonium carbonate homogeneous coprecipitation method

  8. La2O3对Yb~(3+)掺杂的氧化钇透明激光陶瓷性能的影响

    Effect of La_2O_3 on Properties of Yb ~ ( 3 + ) Doped Yttrium Oxide Transparent Laser Ceramics

  9. 利用几何光学原理和轴外像差理论,设计一种应用于大功率CO2激光陶瓷烧结实验的反射型正交双带式积分镜均束装置。

    Using geometrical optics theory and off-axis aberration analysis , a set of crossed double strip integrators for high power CO_2 laser beam homogenizing has been designed .

  10. 另外,我们还在工作中进行了铒掺杂GGG的研究工作。其XRD,SEM分析的结果和采用这两种方法合成的Nd:GGG激光陶瓷的多晶前驱粉体的分析结果相似。

    In addition , we have also carried out the research work on erbium doped GGG XRD and SEM analysis results are similar to that of the Nd : GGG powder .

  11. 共沉淀法制备掺钕钇铝石榴石透明激光陶瓷的研究

    Neodymium-Doped Yttrium Aluminum Garnet Transparent Laser Ceramics Prepared by Co-Precipitation Method

  12. 稀土氧化物透明激光陶瓷粉体的制备与表征

    Preparation and Characterization of Rare Earth Oxide Transparent Laser Ceramic Powders

  13. Nd:YAG激光陶瓷纳米粉体的制备方法研究

    Fabricating of Nanometer Powders for Nd : YAG Ceramic Laser Materials

  14. Nd:YAG透明激光陶瓷的光谱研究

    Research on Spectroscopic Properties of Transparent Nd : YAG Ceramics Laser Materials

  15. 激光陶瓷&固体激光工作物质探索的新热点

    Laser Ceramic & the New Focusing Point of Exploring Solid Laser Material

  16. 棒线轧辊激光陶瓷合金化处理的应用实践

    Practice Application of Alloying of Laser Ceramics for Roller

  17. 钇铝石榴石透明激光陶瓷的研究进展

    Progress in transparent polycrystalline ALUMINUM-YTTRIUM garnet laser ceramic

  18. 掺钕钆镓石榴石激光陶瓷粉体的研究

    Research of Nd : GGG laser ceramics powder

  19. 激光陶瓷的粉体制备研究

    Research on Preparation of Laser Ceramics Powders

  20. 尿素共沉淀法制备Yb:YAG透明激光陶瓷

    Preparation of Yb : YAG transparent laser ceramic with Co ( NH_2 ) _2 co-precipitation method

  21. 掺钕氧化钆镧透明激光陶瓷粉体的制备

    Preparation of Nd ~ ( 3 + ) Doped Gadolinium Lanthanum Oxide Transparent Laser Ceramic Powder

  22. 激光陶瓷划片工艺研究

    Technology of Laser Marking Ceramics Plate

  23. 激光陶瓷的研究进展

    Progress in transparent polycrystalline laser ceramics

  24. 金属材料的激光陶瓷涂层和涂膜

    Laser Ceramic Coating on Metal Surface

  25. 激光陶瓷粉体的合成技术是制备透明陶瓷的基础和关键。

    The synthesis of laser ceramic powders is the prerequisite and key of the transparent ceramics .

  26. 对Nd:YbAG和Nd:YbGG激光陶瓷粉体进行了吸收、荧光光谱分析。

    Absorption and fluorescence emission spectra of Nd : YbAG and Nd : YbGG laser ceramic powders were studied .

  27. 分散均匀、团聚轻的纳米粉体有利于制备出高度透明的激光陶瓷。

    The homogeneously dispersed , less agglomerated and superfine nanometer precursor powders are greatly favorable to fabricate highly transparent laser ceramics .

  28. 由于钇铝石榴石激光陶瓷具有优异的激光性能,是钇铝石榴石激光晶体理想的替代材料。

    Yttrium Aluminum Garnet laser ceramics is an ideal material substitute for Yttrium Aluminum Garnet laser single crystal because of its excellent properties .

  29. 结果表明:掺Yb3+氧化镧钇透明激光陶瓷具有宽的吸收和发射光谱以及长的荧光寿命。

    The results indicate that Yb3 + - doped yttrium lanthanum oxide transparent laser ceramics have broad absorption , emission spectra and long fluorescence lifetime .

  30. 稀土掺杂钇铝石榴石激光陶瓷粉体具有优良的光学性能,还是一种重要的激光材料。

    The rare earth doped yttrium aluminum garnet laser ceramic powders has excellent optical performance , it is also a kind of important laser material .