A Study of the Crystallization, Melting, and Foaming Behaviors of Polylactic Acid in Compressed CO2

A Study of the Crystallization, Melting, and Foaming Behaviors of Polylactic Acid in Compressed CO2

The crystallization and melting behaviors of linear polylactic acid (PLA) treated by compressed CO2 was investigated. The isothermal crystallization test indicated that while PLA exhibited very low crystallization kinetics under atmospheric pressure, CO2 exposure significantly increased PLA’s crysta...

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Main Authors: Chul B. Park, Anson Wong, Yoorim Ko, Wenli Zhu, Wentao Zhai
Format: Article
Language:English
Published: MDPI AG 2009-12-01
Series:International Journal of Molecular Sciences
Subjects:
crystallization
polylactic acid
compressed CO2
Online Access:http://www.mdpi.com/1422-0067/10/12/5381/
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spelling doaj-00b39831ad1448f58d711b33c23d7d9b2020-11-24T20:48:00ZengMDPI AGInternational Journal of Molecular Sciences1422-00672009-12-0110125381539710.3390/ijms10125381A Study of the Crystallization, Melting, and Foaming Behaviors of Polylactic Acid in Compressed CO2Chul B. ParkAnson WongYoorim KoWenli ZhuWentao ZhaiThe crystallization and melting behaviors of linear polylactic acid (PLA) treated by compressed CO2 was investigated. The isothermal crystallization test indicated that while PLA exhibited very low crystallization kinetics under atmospheric pressure, CO2 exposure significantly increased PLA’s crystallization rate; a high crystallinity of 16.5% was achieved after CO2 treatment for only 1 min at 100 °C and 6.89 MPa. One melting peak could be found in the DSC curve, and this exhibited a slight dependency on treatment times, temperatures, and pressures. PLA samples tended to foam during the gas release process, and a foaming window as a function of time and temperature was established. Based on the foaming window, crystallinity, and cell morphology, it was found that foaming clearly reduced the needed time for PLA’s crystallization equilibrium. http://www.mdpi.com/1422-0067/10/12/5381/crystallizationpolylactic acidcompressed CO2
collection DOAJ
language English
format Article
sources DOAJ
author Chul B. Park
Anson Wong
Yoorim Ko
Wenli Zhu
Wentao Zhai
spellingShingle Chul B. Park
Anson Wong
Yoorim Ko
Wenli Zhu
Wentao Zhai
A Study of the Crystallization, Melting, and Foaming Behaviors of Polylactic Acid in Compressed CO2
International Journal of Molecular Sciences
crystallization
polylactic acid
compressed CO2
author_facet Chul B. Park
Anson Wong
Yoorim Ko
Wenli Zhu
Wentao Zhai
author_sort Chul B. Park
title A Study of the Crystallization, Melting, and Foaming Behaviors of Polylactic Acid in Compressed CO2
title_short A Study of the Crystallization, Melting, and Foaming Behaviors of Polylactic Acid in Compressed CO2
title_full A Study of the Crystallization, Melting, and Foaming Behaviors of Polylactic Acid in Compressed CO2
title_fullStr A Study of the Crystallization, Melting, and Foaming Behaviors of Polylactic Acid in Compressed CO2
title_full_unstemmed A Study of the Crystallization, Melting, and Foaming Behaviors of Polylactic Acid in Compressed CO2
title_sort study of the crystallization, melting, and foaming behaviors of polylactic acid in compressed co2
publisher MDPI AG
series International Journal of Molecular Sciences
issn 1422-0067
publishDate 2009-12-01
description The crystallization and melting behaviors of linear polylactic acid (PLA) treated by compressed CO2 was investigated. The isothermal crystallization test indicated that while PLA exhibited very low crystallization kinetics under atmospheric pressure, CO2 exposure significantly increased PLA’s crystallization rate; a high crystallinity of 16.5% was achieved after CO2 treatment for only 1 min at 100 °C and 6.89 MPa. One melting peak could be found in the DSC curve, and this exhibited a slight dependency on treatment times, temperatures, and pressures. PLA samples tended to foam during the gas release process, and a foaming window as a function of time and temperature was established. Based on the foaming window, crystallinity, and cell morphology, it was found that foaming clearly reduced the needed time for PLA’s crystallization equilibrium.
topic crystallization
polylactic acid
compressed CO2
url http://www.mdpi.com/1422-0067/10/12/5381/
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