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Insights on the Molecular Behavior of Polypropylene in the Process of Ultrasonic Injection Molding

Product miniaturization is a constant trend in industries that demand ever-smaller products that can be mass produced while maintaining high precision dimensions in the final pieces. Ultrasonic micro injection molding (UMIM) technology has emerged as a polymer processing technique capable of achievi...

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Autores principales: Iturbe-Ek, Jackeline, Sustaita, Alan O., Aguilar-Viches, Diego, Mata-Padilla, José Manuel, Ávila-Orta, Carlos A., Elizalde, Luis E., Elías-Zúñiga, Alex, Lozano, Luis Marcelo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8625091/
https://www.ncbi.nlm.nih.gov/pubmed/34833309
http://dx.doi.org/10.3390/polym13224010
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author Iturbe-Ek, Jackeline
Sustaita, Alan O.
Aguilar-Viches, Diego
Mata-Padilla, José Manuel
Ávila-Orta, Carlos A.
Elizalde, Luis E.
Elías-Zúñiga, Alex
Lozano, Luis Marcelo
author_facet Iturbe-Ek, Jackeline
Sustaita, Alan O.
Aguilar-Viches, Diego
Mata-Padilla, José Manuel
Ávila-Orta, Carlos A.
Elizalde, Luis E.
Elías-Zúñiga, Alex
Lozano, Luis Marcelo
author_sort Iturbe-Ek, Jackeline
collection PubMed
description Product miniaturization is a constant trend in industries that demand ever-smaller products that can be mass produced while maintaining high precision dimensions in the final pieces. Ultrasonic micro injection molding (UMIM) technology has emerged as a polymer processing technique capable of achieving the mass production of polymeric parts with micro-features, while still assuring replicability, repeatability, and high precision, contrary to the capabilities of conventional processing technologies of polymers. In this study, it is shown that the variation of parameters during the UMIM process, such as the amplitude of the ultrasound waves and the processing time, lead to significant modification on the molecular structure of the polymer. The variation of both the amplitude and processing time contribute to chain scission; however, the processing time is a more relevant factor for this effect as it is capable of achieving a greater chain scission in different areas of the same specimen. Further, the presence of polymorphism within the samples produced by UMIM is demonstrated. Similarly to conventional processes, the UMIM technique leads to some degree of chain orientation, despite the fact that it is carried out in a relatively small time and space. The results presented here aim to contribute to the optimization of the use of the UMIM process for the manufacture of polymeric micro parts.
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spelling pubmed-86250912021-11-27 Insights on the Molecular Behavior of Polypropylene in the Process of Ultrasonic Injection Molding Iturbe-Ek, Jackeline Sustaita, Alan O. Aguilar-Viches, Diego Mata-Padilla, José Manuel Ávila-Orta, Carlos A. Elizalde, Luis E. Elías-Zúñiga, Alex Lozano, Luis Marcelo Polymers (Basel) Article Product miniaturization is a constant trend in industries that demand ever-smaller products that can be mass produced while maintaining high precision dimensions in the final pieces. Ultrasonic micro injection molding (UMIM) technology has emerged as a polymer processing technique capable of achieving the mass production of polymeric parts with micro-features, while still assuring replicability, repeatability, and high precision, contrary to the capabilities of conventional processing technologies of polymers. In this study, it is shown that the variation of parameters during the UMIM process, such as the amplitude of the ultrasound waves and the processing time, lead to significant modification on the molecular structure of the polymer. The variation of both the amplitude and processing time contribute to chain scission; however, the processing time is a more relevant factor for this effect as it is capable of achieving a greater chain scission in different areas of the same specimen. Further, the presence of polymorphism within the samples produced by UMIM is demonstrated. Similarly to conventional processes, the UMIM technique leads to some degree of chain orientation, despite the fact that it is carried out in a relatively small time and space. The results presented here aim to contribute to the optimization of the use of the UMIM process for the manufacture of polymeric micro parts. MDPI 2021-11-19 /pmc/articles/PMC8625091/ /pubmed/34833309 http://dx.doi.org/10.3390/polym13224010 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Iturbe-Ek, Jackeline
Sustaita, Alan O.
Aguilar-Viches, Diego
Mata-Padilla, José Manuel
Ávila-Orta, Carlos A.
Elizalde, Luis E.
Elías-Zúñiga, Alex
Lozano, Luis Marcelo
Insights on the Molecular Behavior of Polypropylene in the Process of Ultrasonic Injection Molding
title Insights on the Molecular Behavior of Polypropylene in the Process of Ultrasonic Injection Molding
title_full Insights on the Molecular Behavior of Polypropylene in the Process of Ultrasonic Injection Molding
title_fullStr Insights on the Molecular Behavior of Polypropylene in the Process of Ultrasonic Injection Molding
title_full_unstemmed Insights on the Molecular Behavior of Polypropylene in the Process of Ultrasonic Injection Molding
title_short Insights on the Molecular Behavior of Polypropylene in the Process of Ultrasonic Injection Molding
title_sort insights on the molecular behavior of polypropylene in the process of ultrasonic injection molding
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8625091/
https://www.ncbi.nlm.nih.gov/pubmed/34833309
http://dx.doi.org/10.3390/polym13224010
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