2018
DOI: 10.1002/pcr2.10007
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Secondary crystallization kinetics

Abstract: The overlap between primary and secondary crystallization is the cause of the repeated observations of fractional constant n values, of no theoretical significance, in the analysis of polymer crystallization by the Avrami equation. The time dependence of the growth nuclei in primary and secondary crystallization are explained in terms of reptation and nucleation theory. A composite equation involving both primary and secondary crystallization has been derived to account for the development of the total fractio… Show more

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Cited by 14 publications
(21 citation statements)
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“…It becomes clear that the initial mobile amorphous phase is converted into both the rigid amorphous phase and the crystalline phase over a long period of time. The temporal evolution of the additional crystallinity is in a √ t-relation, which proves the interpretation as secondary crystallization [36].…”
Section: Subsequent Secondary Crystallizationsupporting
confidence: 54%
“…It becomes clear that the initial mobile amorphous phase is converted into both the rigid amorphous phase and the crystalline phase over a long period of time. The temporal evolution of the additional crystallinity is in a √ t-relation, which proves the interpretation as secondary crystallization [36].…”
Section: Subsequent Secondary Crystallizationsupporting
confidence: 54%
“…When repeatedly heated to 205 °C, the melting and crystallisation behaviour of PA−12 shows what can conveniently be described as a parabolic response. This could be explained by a "self-seeding" process [49,50]. Although 205 °C is greater than the observed melting point, some thicker lamellae may not fully melt, which can result in residual lamellae.…”
Section: Initial Assessment Of Thermal Stabilitymentioning
confidence: 93%
“…The following quantitative analysis is based on the fitting of the α­(t) data sets by eq . It is well known that the Avrami model describes in a generally accurate way the first part of the crystallization process (typically up to α values of 30 to 60%), while in the final stage, the so-called secondary crystallization mechanism prevails . In all cases analyzed in this work, the overlap of the Avrami fit with the experimental points throughout the first half of the isothermal crystallization process is excellent (nonlinear fitting performed with Origin Pro 2015 Data Analysis and Graphing Software, based on the Levenberg–Marquardt algorithm).…”
Section: Results and Discussionmentioning
confidence: 75%
“…It is well known that the Avrami model describes in a generally accurate way the first part of the crystallization process (typically up to α values of 30 to 60% 40 ), while in the final stage, the so-called secondary crystallization mechanism prevails. 43 In all cases analyzed in this work, the overlap of the Avrami fit with the experimental points throughout the first half of the isothermal crystallization process is excellent (nonlinear fitting performed with Origin Pro 2015 Data Analysis and Graphing Software, based on the Levenberg−Marquardt algorithm 44 ). This is clearly shown in three plots reported in Figure 3, representative of progressively slower crystallization processes at increasing crystallization temperature.…”
Section: Resultsmentioning
confidence: 94%