以高氯酸铵(AP)的静电性能测试及介电常数匹配理论为基础,综合采用化学反应法、正负抵偿法、添加活化剂法和阶梯复合法等结构材料技术,完成了物理方法控制和消除AP在复合固体推进剂制造过程中产生静电的试验研究。研制出了适于不同粒度特性AP的防静电阶梯复合结构涂层材料,该材料具有优良的防静电,抗老化、耐腐蚀、附着力与机械性能,且制作工艺简易。 Based on the theory of electrostatic property test and dielectric constant matching of ammonium perchlorate (AP), physical method control was accomplished by comprehensively adopting structural material technologies such as chemical reaction method, positive and negative compensation method, adding activator method and ladder compound method And to eliminate the AP in the manufacture of composite solid propellant manufacturing process of static electricity. Developed anti-static ladder composite coating material suitable for different particle size AP, the material has excellent anti-static, anti-aging, corrosion resistance, adhesion and mechanical properties, and the production process is simple.