Journal
POLYMERS
Volume 15, Issue 1, Pages -Publisher
MDPI
DOI: 10.3390/polym15010197
Keywords
Avrami; calorimetry; crystallization; kinetics; polymer
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The Jeziorny method replaces temperature values with corresponding time values in the isothermal Avrami plot to analyze nonisothermal crystallization data. However, this method is not applicable for nonisothermal data, as the intercept and slope of the plot cannot be interpreted as rate constant and Avrami exponent, respectively.
The Jeziorny method treats nonisothermal crystallization data by replacing the variable temperature (T) values with the corresponding values of time and substituting them into the isothermal Avrami plot, ln[-ln(1 - alpha)] vs. lnt. For isothermal data, the slope of this plot is the Avrami exponent, n and the intercept is the rate constant, k(A). This does not hold for nonisothermal data. Theoretical analysis suggests that in the case of nonisothermal data the intercept cannot be interpreted as k(A), and its correction by dividing over the temperature change rate beta is devoid of any meaning. In turn, the slope cannot be interpreted as n. It is demonstrated that the slope changes with time and its value depends not only on n but also on the temperature, temperature range, and activation energy of crystallization. Generally, the value of the slope is likely to markedly exceed the n value. The theoretical results are confirmed by analysis of simulated data. Overall, the Jeziorny method as well as other techniques that substitute nonisothermal data into the isothermal Avrami plot should be avoided as invalid and useless for any reasonable Avrami analysis. It is noted that n can be estimated from the nonlinear plot of ln[-ln(1 - alpha)] vs. T.
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