菜单
  

      2.4 Results and discussion    13
         2.4.1 Analysis of the mechanical properties of PI film    13
         2.4.2 PI film Thermal Performance Analysis    14
         2.4.3 PI film UV - visible spectroscopy    15
         2.4.4 PI film adhesion performance analysis    16
    3 Preparation and Properties 9FDA-TFODA-PMDS- PI film    17
      3.1 Experimental materials and equipment    17
         3.1.1 Experimental materials    17
     
         3.1.2 Experimental equipment    17
      3.2 Experimental content    18
         3.2.1 Drying of materials and equipment    18
         3.2.2 Synthesis of PAA    18
         3.2.3 Preparation of PI film by thermal imidization    19
      3.3 Performance Testing    19
         3.3.1 PI film mechanical property     19
         3.3.2 PI film thermal performance test    19
         3.3.3 PI film optical performance test    19
         3.3.4 PI film adhesion test    19
      3.4 Results and discussion    20
         3.4.1 Analysis of the mechanical properties of PI film    20
         3.4.2 PI film Thermal Performance Analysis    21
         3.4.3 PI film UV - visible spectroscopy    22
         3.4.4 PI film adhesion performance analysis    23
    Conclusion    24
    Express thanks    26
    References    28
    1 Introduction
    1.1 Foreword
    Polyimide is a kind of polymer containing imide ring, because of its outstanding performance in heat resistance, mechanical properties, dielectric properties and other excellent properties, and it was widely used in aerospace, microelectronics industry and other fields[1], but the widely used PI materials, because the backbone contains rigid benzene and imide ring structure, the molecular chain has strong interaction, PI is difficult to dissolve in organic solvents, which makes it difficult to be machined, the preparation of PI,mainly through the first synthesis of PAA, and then through the thermal imidization or chemical imidization , but PAA is not stable and is hard to be reserved for a long time, which greatly limits the application of PI. The flexible solar battery plate, a liquid crystal display orientation film, communication connection of optical waveguide material require a good transparency and high heat resistance , the traditional polymer ,such as PMMA and PC, have a good transparency in the visible light range, but its heat resistance limits its application in this area. PI, as traditional heat-resistant high-temperature materials, due to inter-molecular and intra-molecular charge transfer complexation, making PI films generally show a pale yellow to dark brown. Therefore, we prepared colorless transparent PI on the basis of molecular structure design of PI, in order to reduce the intra-molecular and inter-molecular effect to decrease the charge transfer complexes (CTC) formation.
    In order to obtain colorless and transparent polyimide, the molecular structure design is essential of decreasing effect of inter- and intra- molecular charge to reduce inter- and intra- molecular CTC formation[2]. To get colorless and transparent polyimide, the main design method is:(1) The introduction of trifluoromethyl in the molecular structure of PI. Trifluoromethyl can cut off the conjugated electron cloud, reducing the formation probability of CTC, weakening the interaction between the molecular chains; (2) Introducing the alicyclic structure into the main chain of PI, It can reduce the content of aromatic structure in PI;(3) The introduction of flexible structural units (, ether bond or thioether bond ) in the main chain of PI, it can increase flexibility and reduce the interaction of polymer molecular chain; (4) The introduction of bulky side groups, the existence of side groups can reduce the bulk density of polymer without affecting The rigidity of the polymers. (5) The introduction of non-planar structure or asymmetric structure, It can change the molecular chain, reduce regularity, increase the free volume of molecular weight; (6)The synthesis of copolymerization, using the difference of molecular structure, the symmetry of PI is destroyed; (7)The introduction of strong electron-withdrawing group( sulfone) and other design methods.
  1. 上一篇:氟掺杂对纳米碳材料氧还原催化性能的影响研究
  2. 下一篇:呋喃并香豆素衍生物的合成

  1. 单边季戊四醇修饰的Al-A...

  2. Fe-Anderson型杂多酸的制备及条件优化

  3. 单边三羟甲基硝基甲烷修...

  4. Tris-CH3修饰Ni-Anderson型杂多酸盐的合成研究

  5. Co-Anderson型杂多酸的制备和优化

  6. 七年级英语教材的比较分...

  7. 单边三羟甲基乙烷修饰的...

  8. 高警觉工作人群的元情绪...

  9. 巴金《激流三部曲》高觉新的悲剧命运

  10. 浅析中国古代宗法制度

  11. 现代简约美式风格在室内家装中的运用

  12. 中国传统元素在游戏角色...

  13. 上市公司股权结构对经营绩效的影响研究

  14. NFC协议物理层的软件实现+文献综述

  15. C++最短路径算法研究和程序设计

  16. 江苏省某高中学生体质现状的调查研究

  17. g-C3N4光催化剂的制备和光催化性能研究

  

About

优尔论文网手机版...

主页:http://www.youerw.com

关闭返回