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首次采用非线性等转化率法研究了聚苯乙烯在氮气中不同升温速率下的非等温热重曲线,通过程序拟合得到了热解过程中活化能Eα与转化率α的关系.实验结果显示,在氮气中聚苯乙烯存在一个失重阶段,起始热解温度随升温速率的增大而升高.动力学拟合结果显示,热解初始阶段的活化能值较低,约为80 kJ/mol,主要对应于聚合物链中弱键的任意断裂反应,其反应速度很快;随着反应的进行,活化能Eα逐渐增大,当α0.3后趋于平缓,此阶段Eα的平均值约为145 kJ/mol,反应主要为聚合物链本身的断裂、解聚;当α0.9时,Eα值迅速减小,反应以链终止反应为主.

参考文献

[1] WESTERHOUT R W J;WAANDERS J;KUIPERS J A M et al.[J].Industrial and Engineering Chemistry Research,1997,36(06):1955-1964.
[2] KNUMANN R;BOCKHORN H .[J].Combustion Science and Technology,1994,101(1-6):285-299.
[3] CONESA J A;MARCILLA A;CABALLERO J A et al.[J].Journal of Analytical and Applied Pyrolysis,2001,58:617-633.
[4] FARAVELLI T;PINCIROLI M;PISANO F et al.[J].Journal of Analytical and Applied Pyrolysis,2001,60:103-121.
[5] Sergey Vyazovkin;Charles A. Wight .Isothermal and non-isothermal kinetics of thermally stimulated reactions of solids[J].International Reviews in Physical Chemistry,1998(3):407-433.
[6] Sergey Vyazovkin .Kinetic concepts of thermally stimulated reactions in solids: a view from a historical perspective[J].International Reviews in Physical Chemistry,2000(1):45-60.
[7] VYAZOVKIN S;DOLLIMORE D .[J].Journal of Chemical Information and Computer Sciences,1996,36(01):42-45.
[8] OZAWA T .[J].Bulletin of the Chemical Society of Japan,1965,38(11):1881.
[9] MURATA K;HIRANO Y;SAKATA Y et al.[J].Journal of Analytical and Applied Pyrolysis,2002,65:71-90.
[10] PIELICHOWSKI K;STOCH L .[J].Journal of Thermal Analysis,1995,45(05):1239-1243.
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