晶态

jīng tài
  • crystalline state
晶态晶态
晶态[jīng tài]
  1. 纤维植物(棉花、竹、木等)细胞壁S2层内.部分纤维素大分子呈现结晶态。

    In fiber plants ( e. g. cottons , bamboos . trees ) . some parts of cellulose macromolecule are in the crystalline state in the S2 layer of cell walls .

  2. 讨论了PLZT铁电薄膜的热处理工艺条件、结构特性、光谱特性与材料的表观裂纹、晶态与非晶态之间的关系。

    We also discuss in detail the relation between heat treatment technology , phase structures , optical spectroscopic properties with apparent crackle , crystalline state and amorphous state etc.

  3. 研究了NiWP非晶态合金的电沉积方法;

    Electro - deposit of Ni - W-P amorphous alloy was investigated .

  4. 钕掺杂非晶态Ni(OH)2的电化学性能

    Electrochemical Performances of Neodymium-Substituted Amorphous Ni ( OH ) _ 2

  5. 根据镀层的X射线衍射实验结果,研究了镀层结构及非晶态结构的形成机理。

    The deposit structure and amorphization mechanism is discussed by X-ray diffraction patterns .

  6. 微通道板非晶态Al2O3电子透射膜

    Amorphous State Al_2O_3 Electron Transmission Film at the Input of MCP

  7. 液淬工艺和微量元素对非晶态FeBSi合金热稳定性的影响

    Influence of quenching conditions and Micro-addition of Cerium on thermal stability of amorphous Fe-B-Si alloys

  8. Fe基非晶态合金的低温电阻研究

    Electrical resistivity study of the Fe-based amorphous alloys

  9. 非晶态Ni-W合金电镀及其耐蚀性研究

    Electroplating and Corrosion Resistance of Amorphous Ni W Alloy

  10. 低温离子束混合形成非晶态Pd(0.67)B(0.33)合金

    Amorphous Pd_ ( 0.67 ) B_ ( 0.33 ) alloys prepared by low temperature ion beam mixing

  11. 扫描电镜和X射线衍射分析结果表明,高磷合金镀层为非晶态结构。

    Analysis of SEM and X-ray diffraction showed th a t high phosphorous alloy deposit was amorphous .

  12. 非晶态Ni-Mo-Fe合金作电解水析氢反应电极

    Amorphous Ni-Mo-Fe Alloy as the Electrode for Hydrogen Evolution Reaction of Alkaline Water Electrolysis

  13. 非晶态Ni-P合金与纳米Al2O3微粒复合镀层的制备

    Preparation of Composite Coating of Amorphous Ni-P Alloy with Nano-Al_2O_3

  14. Ar离子辐照非晶态合金引起的尺寸变化

    Dimensional Changes of Amorphous Alloys Under Swift Ar Ion Irradiation

  15. 非晶态Fe(1-x)(Si,B)x合金的内禀磁性和磁各向异性

    Intrinsic magnetism and magnetic anisotropy of amorphous alloys fe_ ( 1-x )( si , b ) _x

  16. 机械合金化制备Mg(58)Cu(42)非晶态合金粉末的机理研究

    On mechanism of amorphous alloy powder Mg_ ( 58 ) Cu_ ( 42 ) prepared with mechanical alloying

  17. 鉴别出非晶态PET中主要载流子类型属空穴型。

    It hasbeen confirmed that the main species of charge carriers of amorphous PET are the holes .

  18. Ce对非晶态Fe(76)B(15)Si9合金脆化及晶化的影响

    Effects of Ce on Embrittlement and crystallization of amorphous fe_ ( 76 ) b_ ( 15 ) si_9 alloy

  19. 本文研究了结晶态与非结晶态的壳聚糖对Cr(Ⅲ)的吸附动力学和吸附等温线。

    The adsorption kinetics and adsorption isotherm of Cr (ⅲ) by crystalline-state or non crystalline-state chitosan were investigated .

  20. 激光致晶态Ge2Sb2Te5相变介质的光学常数

    Optical Constants of Laser-Induced Crys tallineGe_2Sb_2Te_5 Phase-Change Media

  21. Ni-P非晶态合金超细微粒的晶化行为

    Crystallization behavior of the ultrafine amorphous nickel - phosphorus alloy particles

  22. 非晶态Ni基合金化学镀层因其具备优良的耐腐蚀性能,在工业中已经获得了广泛的应用。

    Amorphous Ni-based alloy electroless coating had been widely used in industry due to its good performance of corrosion resistance .

  23. 非晶态Ni-P合金的晶化温度与预存晶核的关系

    Relationship between crystallization temperature and pre-existing nuclei in the amorphous Ni-P alloy

  24. 脉冲化学镀与化学镀非晶态Ni-P合金镀层的微观结构

    Microstructures of Amorphous Ni-P Alloys Prepared by Impulse Electroless and Electroless Plating

  25. Ni-P非晶态合金形成过程中的粘度变化

    Temperature dependence upon viscosity of Ni-P alloy on amorphous formation

  26. 可充锂电池用非晶态MnO2/C纳米复合材料的直接合成及其电化学性能研究

    Direct synthesis and electrochemical performance of manganese oxide / C nanocomposites for rechargeable Li batteries

  27. 沉淀法制备非晶态SiO2超细粉的研究

    A Study of Noncrystalline Superfine Powder SiO_2 Prepared by Way of Precipitation

  28. 金刚石的习见晶态半晶PBT在室温存放时的聚态结构变化

    Structural changes of semicrystalline PBT during storing at room temperature

  29. 鉴于Fe基非晶态合金优异的特性,其作为新型表面防护涂层材料具有广阔的应用前景。

    Fe-based amorphous alloys as a new type of surface protection coating material have a broad application prospect because of the excellent properties .

  30. 金刚石经化学镀+电镀,表面形成Ni-P非晶态合金镀层。

    Ni-P amorphous alloy coating is formed on the diamond surface by electroless plating .