|
Authors
|
Androsch, R.; Jariyavidyanont, K.; Janke, A.; Schick, C.
|
|
Title
|
Poly (butylene succinate): Low-temperature nucleation and crystallization, complex morphology and absence of lamellar thickening
|
|
Date
|
20.10.2023
|
|
Number
|
0
|
|
Abstract
|
Melt-crystallization of poly (butylene succinate) (PBS) at largely different melt-supercooling was analyzed by X-ray scattering techniques, direct imaging using microscopy, and by fast scanning chip calorimetry, with the latter employed to achieve high melt-supercooling. Crystallization at 100 and 20 °C, representing structure formation at low and high melt-supercooling, respectively, yields lamellae with thicknesses of around 8 and 4 nm. In both cases, lamellar thickening is excluded as main mechanism of isothermal secondary crystallization, suggesting that absence of intracrystalline chain-sliding diffusion is not dependent on the absolute value of the thickness of lamellae. The wide-angle X-ray pattern of PBS crystallized at low temperature shows less and broader peaks than in case of PBS crystallized at high temperature, pointing to presence of crystal defects, and causing an enlargement of the unit cell. Secondary crystallization leads to an increase of the melting temperature, being distinctly larger (per unit annealing time) for low-temperature crystallized PBS. Since lamellar thickening is absent, and imperfection of the bulk crystal structure persists even on long-term annealing, merging of crystalline blocks and lateral crystal growth at the crystallization temperature, for explaining the observed increases of the crystallinity and melting temperature, are suggested. Though there is detected a large rigid amorphous fraction in PBS crystallized at high supercooling, vitrification only occurs continuously on cooling, after the isothermal crystallization process.
|
|
Publisher
|
Elsevier
|
|
Wikidata
|
|
|
Citation
|
Polymer 285 (2023) 126311
|
|
DOI
|
https://doi.org/10.1016/j.polymer.2023.126311
|
|
Tags
|
|
