膜材

  • 网络membrane material;Film materials;pvc
膜材膜材
  1. 结论定时释放小丸的时滞是由于膜材的疏水性所致;

    Conclusion The lag time of famotidine time-controlled release pellets is induced by the hydrophobicity of the film .

  2. 增塑剂对膜性能的影响由增塑剂与膜材的相容性决定。

    The effect of plasticizers on film properties depended on the material-plasticizer compatibility .

  3. 建筑PVC膜材双轴正交拉伸循环试验

    Cyclic Test of Architectural PVC Membrane Materials under Biaxial Orthogonality Tensile Loads

  4. AM&AA与ST接技共聚降解膜材科的合成及性能表征

    Synthesis and Function Proof of Graft Copolymerization Degrade Membrane of AM-AA and ST

  5. 常用的涂层织物类膜材有PTFE膜材和PVC膜材。

    While the commonly used coating fabric membrane materials are PTFE and PVC .

  6. 对一种PVDF涂层的聚酯纤维膜材进行实验研究。

    A kind of PVDF membrane material was experimentally studied .

  7. PVDF涂层建筑膜材单元结构力学性能的试验研究

    An Experiment Research on Mechanical Capability of Cell Structure Made of PVDF-Coated Architecture Membrane

  8. 猪用生长激素(PST)脂质体制备方法和膜材的选择

    The Preparation Methods and Selection of Membrane Materials for PST Liposomes

  9. 膜材在LOFT建筑节能设计中的应用设想

    The Conceives of Membrane Application in Energy Saving Design of LOFT Architecture

  10. 使用PVDF涂层建筑膜材制成的结构,在承受外载荷情况下,力学行为非常复杂。

    The mechanical behavior of architectural structure made up of PVDF-coated architecture membrane , is very complex under exterior loading .

  11. 首先,根据建筑膜材PVDF与柔性薄膜太阳能电池两者的力学特性提出了两种不同的复合方式。

    First , according to the mechanical properties of membrane PVDF and flexible thin-film solar cells to proposed two different composite mode .

  12. 首先,对PVDF涂层建筑膜材进行拉伸试验,测定其在常温和低温环境下膜的拉伸力学性能参数。

    Firstly , tensile experiment of PVDF-coated architecture membrane was conducted to obtain its tensile mechanical parameter under normal and low temperature environment .

  13. 选用具有较高化学稳定性和抗激光损伤阈值的ZrO2和SiO2作为高低折射率搭配的膜材。

    ZrO_2 and SiO_2 were chosen as the materials of films due to their high chemical durability and high laser induced damage threshold .

  14. 水性聚氨酯与PVDF基疏水涂层的制备、结构及性能2.对一种PVDF涂层的聚酯纤维膜材进行实验研究。

    Synthesis , Characterization and Performances of Waterborne Polyurethane Coatings and PVDF Based Hydrophobic Coatings 2 . A kind of PVDF membrane material was experimentally studied .

  15. ETFE膜材在建筑中的应用

    The application of ETFE membranes in the architecture

  16. 基于拟合曲线可以对PTFE膜材在使用若干年后的力学性能进行预测,为膜结构的耐久性设计提供了依据。

    Based on these curves , the mechanical properties of PTFE coated fabric after a number of years are predicted , providing the basis for durability design of membrane structure .

  17. 公司工程加工材料全部采用进口膜材,产品制造严格按照国际ISO9001质量体系标准控制。

    All processing materials of the Company 's engineering use imported membranes , produced and controlled in strict accordance with international standards ISO9001 quality system .

  18. 采用CCD及其计算机处理系统,实时获取变形前后膜材表面图像,对变形前后的图像进行相关运算获得应变;

    In this method , images of the membrane surface are captured in real-time by CCD and corresponding computer system . And DICM is subsequently used to obtain large strain by correlating the images captured before and after deformation .

  19. 设计并完成了3种不同应力水平下PTFE膜材的蠕变试验,蠕变试验时间为24小时,获得了PTFE膜材经向和纬向试件的蠕变应变&时间曲线。

    Creep experiment of PTFE coated fabric under three different stress levels lasting for 24 hours is designed and accomplished , creep strain-time curves of of PTFE coated fabric warp and weft specimens are obtained .

  20. 鱼精蛋白法为试验产品包封率的测定方法研究比较了制备PST脂质体的三种膜材。

    And protamine aggregation was suggested as the determining method for the encapsulation rate of the product . Three membrane materials for preparing PST liposomes were investigated and compared .

  21. 本课题致力于制备以十八烷胺(SA)为主要膜材的iRNA阳离子脂质体,以达到改变iRNA剂型,增强iRNA的免疫活性的目的。

    In the paper , iRNA-SA liposomes was made by stearylamine ( SA ) mainly . The liposome not only change the dosage form but increase the immunocompetence of iRNA .

  22. 采用改进的时间硬化模型作为PTFE膜材的蠕变本构模型,根据膜材经向和纬向试件在不同应力水平下的蠕变试验曲线确定了本构模型中的参数。

    Modified time hardening model are used as creep constitutive model of PTFE coated fabric , and parameters of modified time hardening model are determined through creep strain-time curves of of PTFE coated fabric warp and weft specimens .

  23. 基于复合材料的粘弹性理论,探讨了PTFE膜材的蠕变特性和蠕变机理,指出蠕变是普弹变形、高弹变形以及粘流变形三部分叠加的结果。

    Based on the viscoelasticity theory of composites , creep characteristics and mechanism of PTFE membrane material is discused , pointing out that creep is composed of general elastic deformation , high elastic deformation and viscous flow deformation .

  24. ETFE、PTFE膜材反复加载试验,得到其在反复荷载下的应力-应变曲线、弹性刚度(弹性模量);

    The characteristics of the membrane subjected to the cyclic loading are tested to determine the elastic modulus ( elastic stiffness ) from the cycling stress-strain curve of ETFE and PTFE .

  25. 以聚醚砜(PES)为膜材,聚乙烯吡咯烷酮(PVP)为添加剂,N,N-二甲基乙酰胺(DMAC)为溶剂,用相转化法制备了超滤膜。

    Polyethersulfone ( PES ) ultrafiltration membrane was successfully prepared by means of phase inversion method , with PES as raw material , Polyvinyl Pyrrolidone ( PVP ) as additive , and dimethylacetamide ( DMAC ) as solvent .

  26. 介绍了组成TFS膜材的纤维和涂层的种类、TFS膜材的相关性能及其抗折叠、撕裂、单轴和双轴拉伸等测试方法;

    This paper presents component fiber , coating category and relative property of TFS membrane material , as well as its measure methods for folding resistance , tearing , single and double shaft stretch .

  27. 为寻求制备小型吸附型人工肾的新的途径,制备了球形固定化尿酶(SIU),高效球状活性炭(SAC),抗凝、渗透膜材和新型吸附树脂。

    For searching a new route for preparing mini-type adsorption pattern artificial kidney , spheric immobilized urease ( SIU ), spheric activated charcoal ( SAC ), membranous materials with good penetration and hemocompatibility , and novel adsorptive resin were prepared .

  28. 虽然ETFE膜材于1972年就发明,并广泛应用于医药、卫生等产业,但直到1994年才被探索性地应用于膜建筑领域。

    Although ETFE was invented in 1972 and widely used in the field of medication , sanitation , etc. , it was until 1994 that ETFE film was applied in the field of civil membrane structures .

  29. 中草药吸附膜材抗菌活性研究

    Studies on the antibacterial activity of Chinese medicine herbs supporting films

  30. 膜材性质及制备方法调控下的脂质体负载干扰素的研究

    Research of IFN-encapsulated Liposomes Regulated by Lecithin Characteristics and Preparation Methods