作为最有发展潜力的高分子导电材料的聚苯胺,已经在研究中得到证实。要想将高分子材料和聚苯胺相互相容混合,温度就必须到140℃到250℃之间;在高频率电路中工作的导电体聚苯胺其电解容器的温度就必须长期保持在110℃左右。对聚苯胺中掺杂盐酸进行实验分析,对其混合体进行热处理后,再通过X涉嫌衍射和热重分析两种手段进行测试,且分别从热处理的温度和环境对电导率的影响来分析高分子结构的变化。然后对于实验的结论进行讨论分析掺杂盐酸后的聚苯胺热降解,使之成为可靠的实验依据。 As the most promising polyaniline polymer conductive material, has been confirmed in the study. In order to polymer materials and polyaniline mutual compatibility of mixing, the temperature must be between 140 ℃ to 250 ℃; working in high-frequency circuit conductor polyaniline its electrolytic tank temperature must be maintained at about 110 ℃ . The polyaniline doped hydrochloric acid for experimental analysis of the mixture after heat treatment, and then by X-ray diffraction and thermal gravimetric analysis of two means to test, and respectively, from the heat treatment temperature and the impact of environmental conductivity to analyze the high Changes in molecular structure. Then the experimental conclusion is discussed to analyze the thermal degradation of polyaniline after doped with hydrochloric acid, making it a reliable experimental basis.