基底材料

  • 网络base material;Substrate;Substrate material;Matrix material
基底材料基底材料
  1. 为树脂作为离子交换和吸附剂的基底材料提供了条件。

    Resistance for the ion exchange and adsorbent resin as base material of the conditions provided .

  2. 250℃高温稳定的亚胺型箔式应变计基底材料

    Study on a base material of the strain gauge for stable copolyimide type at 250 ℃

  3. 所用的基底材料是表面有Au纳米粒子阵列的多孔氧化铝模板。

    The substrates were porous alumina templates with Au-particle arrays on the surfaces .

  4. 基底材料和温度对CVD金刚石沉积的影响

    Effect of Substrate Materials and Temperature on CVD Diamond Deposition

  5. Ni(OH)2的电化学性质不仅与其自身有关,还与基底材料的特性有着密切的关系。

    The electrochemical performance of Ni ( OH ) _2 was determined by the essence and the nature of substrate materials .

  6. 对于10.6μm激光而言,Ge最适宜做基底材料。

    For the 10.6 μ m laser , Ge is the most suitable substrate material .

  7. 在真空条件下利用真空电弧源在不同基底材料上镀制了TiO2薄膜。

    TiO_2 thin films were deposited on different substrates in vacuum by way of cathode arc discharge .

  8. 基于柔性基底材料如聚对苯二甲酸乙二酯(PET)等的柔性电子(flexibleelectronics)技术近年来得到迅猛发展。

    Flexible electronics based on polymer substrates technology such as poly ( ethylene terephthalate )( PET ) has been rapid development in recent years .

  9. 在Fe基底材料上电镀NiSn合金制备低析氢过电位的阴极活性材料。

    The cathode active material with low hydrogen evolution overvoltage was prepared by electroplating Ni_Sn alloy on the ferrous basic body .

  10. 研制出一种利用高分子聚合物薄膜作为基底材料的光纤pH传感器,它是将刚果红染料试剂固定化到经化学处理过的高聚物薄膜上而制成的。

    A fiber-optic pH sensor , in which Congo Red dye reagent is immobilized on the substrate of the chemically treated polymer membrane , is presented .

  11. 基底材料对溶胶-凝胶法制备BST薄膜的影响

    Effect of Substrates on BST Thin Films Prepared by Sol-gel Method

  12. TA涂层界面具有足够的结合强度,是值得进一步研究的复合种植体基底材料。

    CI has stronger shear strength with coating than TA , and may be used as a substrate of composite implant .

  13. 通过更换基底材料,证实了稀土镧对AgBaO薄膜中银纳米粒子的细化作用。

    The Miniaturization of lanthanum on silver nanoparticles in Ag-BaO thin films has been confirmed by a change of material of substrate .

  14. 铝膜厚度与偏转电压、沉积时间、Al靶电流以及基底材料的导电性能等PVD处理参数相关;

    The thickness of Al films was correlated with bias voltage , deposition time , Al target current , and the substrates ' conductivity .

  15. 以制得的银颗粒为SERS基底材料,对SERS基底的增强性能进行了检测分析。

    The enhancement effect of the SERS substrate which is made by the prepared silver particle is detected and analyzed .

  16. 为了开发一套实用的PCR微流控芯片系统,本论文对以PMMA(聚甲基丙烯酸甲酯)为基底材料的连续流式PCR微流控芯片系统及其应用技术进行了研究。

    To develop a practical PCR microfluidic chip system , the polymethylmethacrylate ( PMMA ) based continuous-flow PCR microfluidic chip system and its application technology was researched in this thesis .

  17. ZrO2/SiO2多层膜中膜厚组合周期数及基底材料对残余应力的影响

    Influences of the period of repeating thickness on the stress of alternative high and low refractivity ZrO_2 / SiO_2 multilayers

  18. Ti-75合金作为复合种植体基底材料的实验研究

    Experimental study of Ti-75 alloy as a substrate of composite implant

  19. 本论文首先利用透射型THz时域光谱技术和分析方法,对高阻硅、不同掺杂的单晶硅、氧化镁、石蜡进行测量和分析,以选择出合适的基底材料。

    Firstly , we measured and analyzed high resistivity crystalline silicon , different doped crystalline silicon , magnesium oxide , paraffin for suited substrate .

  20. 因此SERS能否走向实际应用,关键是得到均匀的、稳定的、可循环利用的基底材料。

    Therefore , key issues on the extension of SERS to practical application are how to obtain uniform , stable and reproducible SERS substrates .

  21. 本文讨论了一种用于高功率CO_2激光器反射镜的设计、制备、测试及冷却,比较了反镜基底材料的优劣。

    The method of design , measuring , preparation and cooling technigues , which were used for the high power CO_2 reflector , have been discussed . The influence of the different substrate materials on the reflector has been compared .

  22. 目的:观察复合种植体(CI)基底材料Ti-75合金(TA)的生物学特性和TA-涂层结合强度在种植体骨界面结合强度中的表现。

    Objective : To evaluate the biocompatibility of Ti-75 alloy ( TA ) as a substrate of composite implant ( CI ) and the role of the shear strength of TA-coating in the CI-bone interface .

  23. 以低成本、操作简便的热壁外延技术,在廉价衬底上成功获得晶体质量好、光学和电学性能适合制作太阳电池基底材料的GaAs薄膜。

    By simple Hot Wall Epitaxy ( HWE ), GaAs thin films were prepared on cheap substrate , which possessed good structure , electronic and optical features and were suitable for polycrystalline thin film solar cell .

  24. 研究了在纳米厚度范围内,TiO2薄膜的导电性与薄膜厚度和基底材料的关系。

    The conductivity of nanometer TiO2 thin films was studied . The dependence of the conductivity of TiO2 thin films on the thickness of the film and the substrate materials were educed .

  25. 提出了对双折射光纤Sagnac滤波器的自动补偿方案,将其粘贴在大热膨胀系数的基底材料上,使双折射光纤Sagnac滤波器自动补偿其光谱波长对温度产生的漂移。

    We present a novel automatic compensation method in which a Sagnac loop filter is fixed to a material with a large thermal expansion constant .

  26. 这归因于基底材料与TiO2的功函数不同,导致了界面电子的转移,功函数差决定了电子转移的深度。

    This is attributed to the transfer of the electrons at the interface between the TiO2 and substrates , and the difference of work function determines the depth of the transfer of the electrons .

  27. ZnO2,SnO2,Fe2O3等基底材料可以用来制作半导体型乙醇气体传感器中的气敏膜。

    The semiconductor material such as ZnO 2 , SnO 2 , Fe 2O 3 may be used to make sensitive film of ethanol gas sensor .

  28. 为了提高常用超导基底材料Ag的熔化温度,选择了高熔点的金属Ni及Al2O3作为添加剂,采用镀层扩散与粉末冶金的方法制备了Ag-Ni合金及Al2O3弥散Ag基复合材料。

    In order to increase the melting temperature of Ag substrate commonly used in superconductor materials , high melting point metal nickel and alumina were selected as additives to improve the properties of Ag with high temperature diffusion and powder metallurgy methods .

  29. 在基底材料方面,从拓宽SERS活性材料,制备高重复性、高灵敏度、高稳定性的基底,到多功能SERS基底的研究都进行了不断地、深入地研究,也取得了丰硕的研究成果。

    On the other hand , from broadening out materials of SERS , preparing high sensitivity , high reproducibility and high stability of SERS substrates to studying multifunctional SERS substrates , a great of research achievements are made on synthesis of SERS substrates .

  30. 从基底材料看,磷酸锌粘固粉作为基底时,牙釉质、修复体的最大VONMISES应力及最大拉应力较玻璃离子粘固粉作为基底时要小,且应力分布更均匀。

    When zinc phosphate cement was used as the base material , the magnitude of maximum Von Mises stress and maximum tensile stress in enamel and composite restorations were comparatively lower than those of glass ionomer cement and the stress distribution were more equable .