On the cryo-molding process and subsequent forming processes of biopolymers with low glass transition temperature

Bio-based as well as biodegradable polymers are increasingly finding their way into applications such as food packaging. Here, certain biopolymers with a high degree of crystallinity may be of interest due to their superior barrier properties. Conversely, forming processes including high deformation...

Full description

Autores:: Petrausch, Julius
Klein, Daniel
Zimmer, Johannes
Stommel, Markus

Tipo de recurso:: Conferencia (Ponencia)

Fecha de publicación:: 2024

Institución:: Universidad de los Andes

Repositorio:: Séneca: repositorio Uniandes

Idioma:: eng

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dc.title.eng.fl_str_mv	On the cryo-molding process and subsequent forming processes of biopolymers with low glass transition temperature
title	On the cryo-molding process and subsequent forming processes of biopolymers with low glass transition temperature
spellingShingle	On the cryo-molding process and subsequent forming processes of biopolymers with low glass transition temperature Cryo-Molding Injection Molding CIM Morphology Amorphous Biopolymer Processing PHA PBAT PBS Ingeniería
title_short	On the cryo-molding process and subsequent forming processes of biopolymers with low glass transition temperature
title_full	On the cryo-molding process and subsequent forming processes of biopolymers with low glass transition temperature
title_fullStr	On the cryo-molding process and subsequent forming processes of biopolymers with low glass transition temperature
title_full_unstemmed	On the cryo-molding process and subsequent forming processes of biopolymers with low glass transition temperature
title_sort	On the cryo-molding process and subsequent forming processes of biopolymers with low glass transition temperature
dc.creator.fl_str_mv	Petrausch, Julius Klein, Daniel Zimmer, Johannes Stommel, Markus
dc.contributor.author.none.fl_str_mv	Petrausch, Julius Klein, Daniel Zimmer, Johannes Stommel, Markus
dc.contributor.editor.none.fl_str_mv	Salcedo, Felipe Perilla, Jairo Ernesto Sierra, Cesar Medina, Jorge Alberto
dc.subject.keyword.none.fl_str_mv	Cryo-Molding Injection Molding CIM Morphology Amorphous Biopolymer Processing PHA PBAT PBS
topic	Cryo-Molding Injection Molding CIM Morphology Amorphous Biopolymer Processing PHA PBAT PBS Ingeniería
dc.subject.themes.none.fl_str_mv	Ingeniería
description	Bio-based as well as biodegradable polymers are increasingly finding their way into applications such as food packaging. Here, certain biopolymers with a high degree of crystallinity may be of interest due to their superior barrier properties. Conversely, forming processes including high deformations often require an almost amorphous material state to avoid the brittle behavior associated with crystal structures. For some of those biopolymers, the narrow window in which they can be processed has delayed their potential use for packaging applications. In rigid packaging, two-step processes are commonly used for the production of containers from thermoplastic polymers. These processes, such as thermo forming or injection stretch blow molding, are a combination of a conversion step, e.g. film extrusion or injection molding, and a deformation step. However, to enable a forming process, the material properties after the first (conversion) step need to fulfil the mechanical requirements of the forming process. For semi crystalline polymers, these requirements are closely linked to the morphology of the converted material. A new process is presented to prevent crystallization and allow for a subsequent forming step. The efficiency of this process is evaluated on tailored lab scale equipment. This publication will provide insights into the opportunities as well as potential challenges presented by the “Cryo-Injection-Molding” (CIM) process. The CIM uses a mold that is cooled by liquid nitrogen. This mold is insulated and used in a lab scale injection process. This process is capable of cooling specimens down to their amorphous state (or semi-crystallin state with a very low degree of crystallinity) and allows the mechanical characterization in a softened state at a temperature above glass transition. To prevent unintended changes of the morphology, after the production process, the samples are stored at a temperature below glass transition and later heated using custom convectional heaters in a setup of a tensile testing machine. In this context, PBAT, PBS and PHA biopolymers are tested exemplarily.
publishDate	2024
dc.date.issued.none.fl_str_mv	2024-12
dc.date.accessioned.none.fl_str_mv	2025-02-07T20:01:00Z
dc.date.available.none.fl_str_mv	2025-02-07T20:01:00Z
dc.type.none.fl_str_mv	Documento de Conferencia
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dc.identifier.isbn.none.fl_str_mv	978-958-798-779-9
dc.identifier.uri.none.fl_str_mv	https://hdl.handle.net/1992/76059
dc.identifier.doi.none.fl_str_mv	https://doi.org/10.51573/Andes.PPS39.SS.BBB.10
dc.identifier.instname.none.fl_str_mv	Universidad de los Andes
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identifier_str_mv	978-958-798-779-9 Universidad de los Andes Repositorio Institucional Séneca
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dc.language.iso.none.fl_str_mv	eng
language	eng
dc.relation.conferencedate.none.fl_str_mv	05-19-2024/05-23-2024
dc.relation.conferenceplace.none.fl_str_mv	Cartagena de Indias, Colombia
dc.relation.ispartofconference.none.fl_str_mv	Proceedings of the 39th International Conference of the Polymer Processing Society (PPS-39)
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dc.format.extent.none.fl_str_mv	9 páginas
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dc.publisher.none.fl_str_mv	Ediciones Uniandes
dc.publisher.faculty.none.fl_str_mv	Facultad de Ingeniería
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publisher.none.fl_str_mv	Ediciones Uniandes
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spelling	Petrausch, JuliusKlein, DanielZimmer, JohannesStommel, MarkusSalcedo, FelipePerilla, Jairo ErnestoSierra, CesarMedina, Jorge Alberto2025-02-07T20:01:00Z2025-02-07T20:01:00Z2024-12978-958-798-779-9https://hdl.handle.net/1992/76059https://doi.org/10.51573/Andes.PPS39.SS.BBB.10Universidad de los AndesRepositorio Institucional Sénecahttps://repositorio.uniandes.edu.co/Bio-based as well as biodegradable polymers are increasingly finding their way into applications such as food packaging. Here, certain biopolymers with a high degree of crystallinity may be of interest due to their superior barrier properties. Conversely, forming processes including high deformations often require an almost amorphous material state to avoid the brittle behavior associated with crystal structures. For some of those biopolymers, the narrow window in which they can be processed has delayed their potential use for packaging applications. In rigid packaging, two-step processes are commonly used for the production of containers from thermoplastic polymers. These processes, such as thermo forming or injection stretch blow molding, are a combination of a conversion step, e.g. film extrusion or injection molding, and a deformation step. However, to enable a forming process, the material properties after the first (conversion) step need to fulfil the mechanical requirements of the forming process. For semi crystalline polymers, these requirements are closely linked to the morphology of the converted material. A new process is presented to prevent crystallization and allow for a subsequent forming step. The efficiency of this process is evaluated on tailored lab scale equipment. This publication will provide insights into the opportunities as well as potential challenges presented by the “Cryo-Injection-Molding” (CIM) process. The CIM uses a mold that is cooled by liquid nitrogen. This mold is insulated and used in a lab scale injection process. This process is capable of cooling specimens down to their amorphous state (or semi-crystallin state with a very low degree of crystallinity) and allows the mechanical characterization in a softened state at a temperature above glass transition. To prevent unintended changes of the morphology, after the production process, the samples are stored at a temperature below glass transition and later heated using custom convectional heaters in a setup of a tensile testing machine. 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On the cryo-molding process and subsequent forming processes of biopolymers with low glass transition temperature

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