1) polyaniline fibers
聚苯胺导电纤维
1.
On the basis of illustrating the importation of researching electromagnetic shielding material,recent development of conductingfiber-glass,amorphous alloy,polyaniline fibers is described.
在阐述发展电磁屏蔽材料重要性的基础上 ,详细介绍了导电玻璃纤维、非晶态合金、聚苯胺导电纤维等新型电磁屏蔽材料的研究动
2) polyaniline compound conductive fiber
聚苯胺复合导电纤维
1.
In this paper,the self-made polyaniline compound conductive fibers are taken as the electric material,the conductive fiber asphalt concrete is prepared.
本文以自制的聚苯胺复合导电纤维为导电相材料,制备了导电纤维沥青混凝土。
3) polyaniline fiber
聚苯胺纤维
4) conductive polyaniline
导电聚苯胺
1.
Electrochemical preparation and performance of sulfuric acid doped conductive polyaniline for cathode material;
硫酸掺杂导电聚苯胺正极材料的电化学制备及性能
2.
Progress in Application of Conductive Polyaniline in Electromagnetic Wave Shielding;
导电聚苯胺在电磁屏蔽技术中的应用进展
3.
Visible light modification study was carried out on the supported nano-titanium dioxide photocatalyst with the help of conductive polyaniline.
利用导电聚苯胺对负载型纳米二氧化钛光催化剂进行可见光改性研究,通过XRD,SEM等方法对负载型纳米二氧化钛光催化剂进行表征;通过光催化降解甲基橙实验评价了导电聚苯胺改性负载型纳米二氧化钛光催化剂在可见光条件下的光催化活性。
5) polyaniline
导电聚苯胺
1.
The doping reaction of polyaniline(PANI) with p-dodecyl benzene sulfonic acid(DBSA) under microwave irradiation was investigated.
研究了微波辐照下十二烷基苯磺酸(DBSA)对聚苯胺的掺杂反应,得到了可溶性的导电聚苯胺,产物的组成与性能和其他方法相比无明显差异。
2.
Shielding component consisted of metal powder and polyaniline increase electromagnetic shielding efficiency in the range of high frequencies of electromagnetic wave in shielding composite,extending frequency width of electromagnetic wave applicable for effective shielding.
金属材料与导电聚苯胺复合形成屏蔽组分有效提高了复合电磁屏蔽材料的高频电磁屏蔽效能,从而扩展了屏蔽材料的屏蔽带宽。
6) conducting polyaniline
导电聚苯胺
1.
Synthesis and Characterization of Conducting Polyaniline Containing Cu(Ⅱ) Ion;
Cu(Ⅱ)离子掺杂导电聚苯胺的合成及表征
2.
Research progress in conducting polyaniline colloidal nanoparticle materials;
导电聚苯胺乳胶纳米微球材料研究进展
3.
The study on synthesis of conducting polyaniline with microemulsion polymerization;
导电聚苯胺的微乳液聚合
补充资料:聚苯胺纤维
分子式:
CAS号:
性质:其突出性能是具有50~100S/cm的导电性和抗静电性等。制法是将无规的高分子量成纤性聚苯胺,添加1mol HCl后形成聚苯胺碱粉,先后用四氢呋喃和N-甲基吡咯烷酮(NMP)萃取除去杂质和低分子物,用硫酸处理转化成可溶于NMP和浓硫酸的盐类,再转化为碱类,并溶于溶剂中湿纺和拉伸而得纤维。主要用作雷达波吸收材料、抗静电服和导电复合材料,若在其表面浸渍非导电普通塑料,可提高强度并据不同用途控制其导电率,如用于飞机机身材料取代金属等。
CAS号:
性质:其突出性能是具有50~100S/cm的导电性和抗静电性等。制法是将无规的高分子量成纤性聚苯胺,添加1mol HCl后形成聚苯胺碱粉,先后用四氢呋喃和N-甲基吡咯烷酮(NMP)萃取除去杂质和低分子物,用硫酸处理转化成可溶于NMP和浓硫酸的盐类,再转化为碱类,并溶于溶剂中湿纺和拉伸而得纤维。主要用作雷达波吸收材料、抗静电服和导电复合材料,若在其表面浸渍非导电普通塑料,可提高强度并据不同用途控制其导电率,如用于飞机机身材料取代金属等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条