新型膨胀阻燃聚丙烯的热分解动力学研究  被引量:12

Thermal Degradation Kinetics of Novel Intumescent Flame Retardant Polypropylene

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作  者:卢林刚[1] 张晴[2] 徐晓楠[3] 董希琳[1] 王大为[2] 

机构地区:[1]中国人民武装警察部队学院科研部,河北廊坊065000 [2]中国人民武装警察部队学院研究生队,河北廊坊065000 [3]中国人民武装警察部队学院消防工程系,河北廊坊065000

出  处:《中国塑料》2009年第5期53-60,共8页China Plastics

摘  要:通过极限氧指数法(LOI)和锥形量热仪(Cone)考察了膨胀阻燃聚丙烯体系(PP/IFR)的阻燃性能;利用热重分析法(TG)研究了聚丙烯(PP)及PP/IFR体系在不同升温速率下的热稳定性及热分解动力学,采用Kissinger及Flynn-Wall-Ozawa方法分析PP和PP/IFR的热分解表观活化能;利用Coats-Redfern方法确定了PP和PP/IFR热分解动力学机理及其模型,得出了聚合物主降解阶段的非等温动力学方程,结果表明,IFR的添加提高了聚丙烯的阻燃性能,添加30%IFR的聚丙烯复合材料,极限氧指数达到27.5%,热释放速率平均值相对未阻燃聚丙烯降低31.2%,PP和PP/IFR热分解反应机理函数为g(α)=-ln(1-α),反应级数n=1,其热分解机理均属于随机成核和随后增长反应。Thermal stability and thermal degradation kinetics of polypropylene (PP) and flame retardant polypropylene (PP/IFR) were investigated by a conventional dynamic thermogravimetric analysis (TG) under highly purity N2 atmosphere at different heating rates between 5 and 35 ℃/min^-1. The flame retardant properties of PP and PP/IFR were studied by limiting oxygen index (LOI) and Cone method. The thermal degradation activation energies of PP and PP/IFR were determined using Kissinger and Flynn-Wall-Ozawa methods. The thermal degradation kinetic mechanism and the isothermal kinetic equations of PP and PP/IFR were determined by Coast- Redfern method. When the content of IFR in PP was 30 wt%, the limited oxygen index value reached 27.5 % and the av-HRR was 31. 2 % lower than neat PP. The kinetic equation can be expressed as g(a)=-ln(1=a), and the reaction order was n=1, and the thermal decomposition mechanism of PP and PP/IFR was random nucleation reaction.

关 键 词:聚丙烯 膨胀阻燃剂 热分解 动力学 阻燃机理 

分 类 号:TQ325.14[化学工程—合成树脂塑料工业]

 

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