Isoconversional Approach to Evaluating the Hoffman-Lauritzen Parameters (U and Kg) from the Overall Rates of Nonisothermal Crystallization
An equation has been derived that correlates the temperature coefficient of the growth rate with the temperature dependence of the effective activation energy of the overall crystallization rate, which can be measured by differential scanning calorimetry. The dependence is evaluated by using an adva...
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| Vydané v: | Macromolecular rapid communications. Ročník 25; číslo 6; s. 733 - 738 |
|---|---|
| Hlavní autori: | , |
| Médium: | Journal Article |
| Jazyk: | English |
| Vydavateľské údaje: |
Weinheim
WILEY-VCH Verlag
01.03.2004
WILEY‐VCH Verlag Wiley |
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| ISSN: | 1022-1336, 1521-3927 |
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| Abstract | An equation has been derived that correlates the temperature coefficient of the growth rate with the temperature dependence of the effective activation energy of the overall crystallization rate, which can be measured by differential scanning calorimetry. The dependence is evaluated by using an advanced isoconversional method and is parameterized in terms of the Hoffman–Lauritzen equation. The parameters obtained for the nonisothermal crystallization of the poly(ethylene terephthalate) melt are consistent with the parameters reported for isothermal crystallization.
The fit of the equation derived here is shown for data corresponding to the dependence of the effective activation energy on average temperature (fit = solid line). |
|---|---|
| AbstractList | An equation has been derived that correlates the temperature coefficient of the growth rate with the temperature dependence of the effective activation energy of the overall crystallization rate, which can be measured by differential scanning calorimetry. The dependence is evaluated by using an advanced isoconversional method and is parameterized in terms of the Hoffman–Lauritzen equation. The parameters obtained for the nonisothermal crystallization of the poly(ethylene terephthalate) melt are consistent with the parameters reported for isothermal crystallization.
The fit of the equation derived here is shown for data corresponding to the dependence of the effective activation energy on average temperature (fit = solid line).
image
The fit of the equation derived here is shown for data corresponding to the dependence of the effective activation energy on average temperature (fit = solid line). An equation has been derived that correlates the temperature coefficient of the growth rate with the temperature dependence of the effective activation energy of the overall crystallization rate, which can be measured by differential scanning calorimetry. The dependence is evaluated by using an advanced isoconversional method and is parameterized in terms of the Hoffman–Lauritzen equation. The parameters obtained for the nonisothermal crystallization of the poly(ethylene terephthalate) melt are consistent with the parameters reported for isothermal crystallization. The fit of the equation derived here is shown for data corresponding to the dependence of the effective activation energy on average temperature (fit = solid line). |
| Author | Vyazovkin, Sergey Sbirrazzuoli, Nicolas |
| Author_xml | – sequence: 1 givenname: Sergey surname: Vyazovkin fullname: Vyazovkin, Sergey email: vyazovkin@uab.edu organization: Department of Chemistry, University of Alabama at Birmingham, Birmingham, AL 35294, USA – sequence: 2 givenname: Nicolas surname: Sbirrazzuoli fullname: Sbirrazzuoli, Nicolas organization: Thermokinetic Group, Laboratory of Chemistry of Organic and Metallic Materials, University of Nice Sophia Antipolis, 06108 Nice Cedex 2, France |
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| Copyright | Copyright © 2004 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim 2004 INIST-CNRS |
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| Keywords | Data analysis Temperature coefficient Melt crystallization Non isothermal condition Temperature effect Polymer Kinetics Experimental study Activation energy Computing method |
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| References_xml | – reference: M. Avrami, J. Chem. Phys. 1941, 9, 177. – reference: Van Krevelen, "Properties of Polymers", 2nd edition, Elsevier, Amsterdam 1976. – reference: M. Chen, C.-T. Chung, J. Polym. Sci. Part B: Polym. Phys. 1998, 36, 2393. – reference: A. Toda, T. Oda, M. Hikosaka, Y. Saruyama, Polymer 1997, 38, 233. – reference: M. Avrami, J. Chem. Phys. 1940, 8, 212. – reference: M. L. Di Lorenzo, C. Silvestre, Prog. Polym. Sci. 1999, 24, 917. – reference: L. H. Palys, P. J. Phillips, J. Polym. Sci.:Polym. Phys. Ed. 1980, 18, 829. – reference: T. Ozawa, Bull. Chem. Soc. Jpn. 1965, 38, 1881. – reference: X. F. Lu, J. N. Hay, Polymer 2001, 42, 9423. – reference: P. J. Phillips, H. T. Tseng, Macromolecules 1989, 22, 1649. – reference: J. M. Schultz, "Polymer Crystallization", ACS & Oxford University Press, New York 2001. – reference: S. Vyazovkin, J. Comput. Chem. 2001, 22, 178. – reference: G. B. A. Lim, K. S. McGuire, D. R. Lloyd, Polym. Eng. 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| SubjectTerms | activation energy Applied sciences Crystallization differential scanning calorimetry (DSC) Exact sciences and technology isoconversional method kinetics (polym.) Organic polymers Physicochemistry of polymers Properties and characterization |
| Title | Isoconversional Approach to Evaluating the Hoffman-Lauritzen Parameters (U and Kg) from the Overall Rates of Nonisothermal Crystallization |
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