支撑膜

  • 网络support film;supported membrane
支撑膜支撑膜
  1. 导电模型说明PANI在支撑膜上随着时间的延长相互连接,形成导电通路,银镶嵌和覆盖在聚苯胺间与聚苯胺形成三维网络通路。

    The conductive model shows PANI connected with each other in the support film and formed conductive pathway , silver covered on and inlaid in PANI composite film which formed three-dimensional network .

  2. 粒子增强渗透蒸发支撑膜的研究

    The study of enforcing of PV supported membrane with particles

  3. 以PSA膜为支撑膜的胺类系列复合膜的研究

    Research of Aminate Composite Membranes Using PSA Membranes as Supporting Membrane

  4. 高质量CVD金刚石自支撑膜的连续激光损伤研究

    Laser Damage Research of High-quality CVD Freestanding Diamond Films Irradiated by CW-laser

  5. BET法结果与TEM照片一致,而且表明[H2O]/[Span-80]为110.9的TiO2反胶团微乳液所制得的无支撑膜孔径分布最窄、最可几孔径约为4.5nm。

    Thus the micelle with [ H2O ] / [ Span-80 ] of 110.9 was used to prepare supported titania membrane .

  6. 经由热致相分离(TIPS)法制备的聚丙烯微孔膜是目前使用最广泛的支撑膜材料。

    Polypropylene ( PP ) microporous membrane synthesizing using thermally induced phase separation ( TIPS ) method is the widely used membrane material .

  7. 并测得PVA系列对该膜的污染指数FI及膜的化学稳定性,为复合膜提供了理想的支撑膜。

    The membrane pollution index FI by PVA solution and the chemical stability are tested . Ideal support membrane is provided for composite membrane .

  8. 本文以聚醚酰亚胺(PEI)多孔支撑膜为支撑层,采用环状分子交联剂交联高乙烯基含量(5mol%)硅橡胶制膜。

    By the polyetherimide porous membrane used as a supporting layer , the silicone rubber containing vinyl groups of 5 mol % is crosslinked to form a crosslinked membrane .

  9. 采用苯胺的等离子体聚合法,得到致密度高、化学稳定性好的自支撑膜。采用高功率直流电弧等离子体CVD工艺制备了不同厚度的金刚石自支撑膜。

    Two kinds of free standing films with properties of compact textrue and good chemical stability are obtained using plasma technique . Diamond film wafers with different thickness were prepared by high power DC arc plasma jet CVD method .

  10. 提高PEG链段长度和含量,PAn-g-PEG能形成稳定的水溶性分散体系,并能浇注成柔韧平整的导电高分子自支撑膜。

    A soft and smooth conducting polymeric film can be directly obtained by casting the stable aqueous dispersion of PAn-g-PEG , which becomes water-soluble when the PEG segments length or content are increased .

  11. 此外,以PSF-SPES中空纤维为支撑膜,采用醋酸纤维素作为涂层液,研究了CA/PSF-SPES复合超滤膜性能,讨论了CA/PSF-SPES共混中空纤维超滤膜结构。

    Besides , using PSF-SPES hollow fiber membrane as support membrane and CA aqueous solution as coating solution , CA / PSF-SPES composite membranes were prepared and the performance of the composite membranes was studied . The structure of CA / PSF-SPES ultra-filtration membrane was also discussed .

  12. 聚砜中空丝支撑膜结构及性能的研究

    Investigation of structure and characteristics of polysulfone hollow fiber supporting membranes

  13. 石油沥青无粘结剂成型制备炭支撑膜

    Preparation of carbon support membrane from petroleum pitch by binderless molding method

  14. 分层蒸镀制备聚酰亚胺自支撑膜及其特性研究

    Preparation of ultra-thin freestanding polyimide films with sequential evaporation technique

  15. 大面积光学级金刚石自支撑膜制备、加工及应用

    Preparation , fabrication and application of Large area optical grade freestanding diamond films

  16. 大面积化学气相沉积金刚石自支撑膜氧化性能的研究

    Oxidation Properties of Large Area CVD Free-standing Diamond Films

  17. 疲劳载荷下金刚石自支撑膜的裂纹扩展

    Crack Propagation in Freestanding Diamond Films under Fatigue Loading

  18. 详细研究了各种石墨烯自支撑膜的制备方法,对方法进行了改良。

    Comparing the different process for free-standing graphene paper , and modified the preparation method .

  19. 聚酰亚胺自支撑膜的制备及其表面形貌

    Preparation and characterization of polyimide freestanding films

  20. 高质量金刚石自支撑膜织构与断裂强度的关系研究

    Research on Relationship Between the Texture and Fracture Strength of High Quality Freestanding CVD Diamond Films

  21. 黑色组织对直流电弧等离子体喷射金刚石自支撑膜光学、热学性能的影响

    The Influence of Microfeature on Optical and Thermal Property of DC Arc Plasma Jet CVD Diamond Films

  22. 聚丙烯腈支撑膜的研究

    Study on pan supporting membranes

  23. 研究了石墨烯自支撑膜的场发射性能,并研究其场发射机理。

    Field emission behavior of the free-standing graphene paper is investigated , and the emission mechanisms are discussed . 4 .

  24. 以石墨烯自支撑膜作为柔性衬底,生长碳纳米管并研究其场发射性能。

    Carbon nanotubes has been grown on the flexible free-standing graphene paper , and the field emission properties has also been studied .

  25. 摘要采用紫外光引发原位聚合的方法制备了具有支撑膜的扑热息痛分子印迹聚合物膜。

    Using paracetamol as template molecule , molecularly imprinted polymer membranes with supporting membrane were synthesized through in situ polymerization by UV irradiation .

  26. 首先研制了蒸汽渗透膜,选用聚砜中空纤维支撑膜,采用涂布法制备了壳聚糖复合膜。

    First we research and develop steam osmosis membrane , choose polysulphone hollow fiber supported membrane by plastering method to prepare chitosan complex membrane .

  27. 采用电化学方法,以高氯酸为掺杂剂,合成了具有较好导电性能和机械性能的聚苯胺自支撑膜。

    In this paper the polyaniline free standing film with better electric conductivity and mechanical properties was prepared by electrochemical method and doping with perchloric acid .

  28. 采用等离子体处理的方法对石墨烯自支撑膜进行表面改性,研究其改性机制并对改性的条件进行对比和优化,并研究改性后的场发射性能提高的机理。

    Surface modification of free-standing graphene paper has been taken by plasma . Different experimental parameter has been compared and discussed . And the mechanism of the field emission enhancement after plasma treatment has been studied . 5 .

  29. 这些鱼含有丰富的可以支撑细胞膜的DHA和必需的欧米伽3脂肪酸。

    They include DHA , which gives structural support to cell membranes and essential omega-3 fatty acids .

  30. 支撑硅膜采用KOH各向异性腐蚀和Si-Si3N4/SiO2自停止腐蚀技术制备。

    The silicon membrane was fabricated using KOH anisotropic etching and Si-Si3N4 / SiO2 ' etch-stop ' process .