A wide set of crystallization isotherms and the subsequent melting behavior of isotactic polypropylene(i-PP)were investigated using differential scanning calorimetry and nanocalorimetry with a very high rate in the cooling step.The latter technique offers,indeed,the distinct possibility to perform isothermal crystallization experiments at any temperature in between the glass transition and melting,as the test temperature can be reached at a cooling rate of 1000 K/s,thus,preventing crystallization during the cooling step.Isothermal tests after such fast cooling were performed at intervals of 5 K within the temperature range -15 to 90 °C,and a local exothermal overheating was observed.In particular,for each isotherm,the observed peaks were fitted using the Kolmogorov-Johnson-Mehl-Avrami model.The plot of the crystallization kinetics constant as function of temperature gives clear evidence of two kinetic processes.The subsequent heating scan performed starting from -15 °C showed an exothermic event,between 0 and 30 °C,due to the mesophase cold crystallization,for isotherms at a temperature lower than 20 °C.
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机译:使用差示扫描量热法和纳米量热法在冷却步骤中以很高的速率研究了一系列的结晶等温线和随后的等规聚丙烯(i-PP)的熔融行为。事实上,后一种技术提供了进行等温的独特可能性。在玻璃化转变和熔融之间的任何温度下进行结晶实验,因为可以在1000 K / s的冷却速率下达到测试温度,从而防止了冷却步骤中的结晶。如此快速冷却后,以在-15至90°C的温度范围内5 K,并且观察到局部放热过热。特别是对于每个等温线,使用Kolmogorov-Johnson-Mehl-Avrami模型拟合观察到的峰。常数作为温度的函数给出了两个动力学过程的明确证据。随后的加热扫描从-15°C开始显示出在0至30°C之间,由于中间相冷结晶,在低于20°C的温度下发生等温线。
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