3D-Printed Polyester-Based Prototypes for Cosmetic Applications—Future Directions at the Forensic Engineering of Advanced Polymeric Materials
Knowledge of degradation and impairment phenomena of (bio)degradable polymeric materials under operating conditions, and thus the selection of test procedures and prediction of their behavior designates the scope and capabilities as well as possible limitations of both: the preparation of the final...
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doaj-caaa4bfacef04d41a06e264ae372bca52020-11-24T21:21:15ZengMDPI AGMaterials1996-19442019-03-0112699410.3390/ma12060994ma120609943D-Printed Polyester-Based Prototypes for Cosmetic Applications—Future Directions at the Forensic Engineering of Advanced Polymeric MaterialsJoanna Rydz0Wanda Sikorska1Marta Musioł2Henryk Janeczek3Jakub Włodarczyk4Marlena Misiurska-Marczak5Justyna Łęczycka6Marek Kowalczuk7Centre of Polymer and Carbon Materials, Polish Academy of Sciences, 34, M. Curie-Skłodowska St., 41-800 Zabrze, PolandCentre of Polymer and Carbon Materials, Polish Academy of Sciences, 34, M. Curie-Skłodowska St., 41-800 Zabrze, PolandCentre of Polymer and Carbon Materials, Polish Academy of Sciences, 34, M. Curie-Skłodowska St., 41-800 Zabrze, PolandCentre of Polymer and Carbon Materials, Polish Academy of Sciences, 34, M. Curie-Skłodowska St., 41-800 Zabrze, PolandCentre of Polymer and Carbon Materials, Polish Academy of Sciences, 34, M. Curie-Skłodowska St., 41-800 Zabrze, PolandLaboratorium Kosmetyczne Dr Irena Eris Sp. z o.o., R&D Department, 12 Armii Krajowej St., 05-500 Piaseczno, PolandLaboratorium Kosmetyczne Dr Irena Eris Sp. z o.o., R&D Department, 12 Armii Krajowej St., 05-500 Piaseczno, PolandCentre of Polymer and Carbon Materials, Polish Academy of Sciences, 34, M. Curie-Skłodowska St., 41-800 Zabrze, PolandKnowledge of degradation and impairment phenomena of (bio)degradable polymeric materials under operating conditions, and thus the selection of test procedures and prediction of their behavior designates the scope and capabilities as well as possible limitations of both: the preparation of the final product and its durability. The main novelty and objective of this research was to determine the degradation pathways during testing of polylactide and polylactide/polyhydroxyalkanoate materials made with three-dimensional printing and the development of a new strategy for the comprehensive characterization of such complex systems including behavior during waste disposal. Prototype objects were subjected to tests for damage evolution performed under simulating operating conditions. The reference samples and the tested items were characterized by gel permeation chromatography and differential scanning calorimetry to determine changes in material properties. The studies showed that: polyhydroxyalkanoate component during accelerated aging and degradation in environments rich in microorganisms accelerated the degradation of the material; paraffin accelerates polylactide degradation and slows degradation of polyhydroxyalkanoate-based material; under the influence of an environment rich in enzymes, paraffin contamination accelerates biodegradation; under the influence of natural conditions, paraffin contamination slowed degradation; the processing conditions, in particular the printing orientation of individual parts of the container, influenced the material properties in its various regions, affecting the rate of degradation of individual parts.https://www.mdpi.com/1996-1944/12/6/994three-dimensional printing(bio)degradable polyesterprototype containercompostabilitybiodegradabilityweathering test |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Joanna Rydz Wanda Sikorska Marta Musioł Henryk Janeczek Jakub Włodarczyk Marlena Misiurska-Marczak Justyna Łęczycka Marek Kowalczuk |
spellingShingle |
Joanna Rydz Wanda Sikorska Marta Musioł Henryk Janeczek Jakub Włodarczyk Marlena Misiurska-Marczak Justyna Łęczycka Marek Kowalczuk 3D-Printed Polyester-Based Prototypes for Cosmetic Applications—Future Directions at the Forensic Engineering of Advanced Polymeric Materials Materials three-dimensional printing (bio)degradable polyester prototype container compostability biodegradability weathering test |
author_facet |
Joanna Rydz Wanda Sikorska Marta Musioł Henryk Janeczek Jakub Włodarczyk Marlena Misiurska-Marczak Justyna Łęczycka Marek Kowalczuk |
author_sort |
Joanna Rydz |
title |
3D-Printed Polyester-Based Prototypes for Cosmetic Applications—Future Directions at the Forensic Engineering of Advanced Polymeric Materials |
title_short |
3D-Printed Polyester-Based Prototypes for Cosmetic Applications—Future Directions at the Forensic Engineering of Advanced Polymeric Materials |
title_full |
3D-Printed Polyester-Based Prototypes for Cosmetic Applications—Future Directions at the Forensic Engineering of Advanced Polymeric Materials |
title_fullStr |
3D-Printed Polyester-Based Prototypes for Cosmetic Applications—Future Directions at the Forensic Engineering of Advanced Polymeric Materials |
title_full_unstemmed |
3D-Printed Polyester-Based Prototypes for Cosmetic Applications—Future Directions at the Forensic Engineering of Advanced Polymeric Materials |
title_sort |
3d-printed polyester-based prototypes for cosmetic applications—future directions at the forensic engineering of advanced polymeric materials |
publisher |
MDPI AG |
series |
Materials |
issn |
1996-1944 |
publishDate |
2019-03-01 |
description |
Knowledge of degradation and impairment phenomena of (bio)degradable polymeric materials under operating conditions, and thus the selection of test procedures and prediction of their behavior designates the scope and capabilities as well as possible limitations of both: the preparation of the final product and its durability. The main novelty and objective of this research was to determine the degradation pathways during testing of polylactide and polylactide/polyhydroxyalkanoate materials made with three-dimensional printing and the development of a new strategy for the comprehensive characterization of such complex systems including behavior during waste disposal. Prototype objects were subjected to tests for damage evolution performed under simulating operating conditions. The reference samples and the tested items were characterized by gel permeation chromatography and differential scanning calorimetry to determine changes in material properties. The studies showed that: polyhydroxyalkanoate component during accelerated aging and degradation in environments rich in microorganisms accelerated the degradation of the material; paraffin accelerates polylactide degradation and slows degradation of polyhydroxyalkanoate-based material; under the influence of an environment rich in enzymes, paraffin contamination accelerates biodegradation; under the influence of natural conditions, paraffin contamination slowed degradation; the processing conditions, in particular the printing orientation of individual parts of the container, influenced the material properties in its various regions, affecting the rate of degradation of individual parts. |
topic |
three-dimensional printing (bio)degradable polyester prototype container compostability biodegradability weathering test |
url |
https://www.mdpi.com/1996-1944/12/6/994 |
work_keys_str_mv |
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