Thermoplastic Composite Materials Approach for More Circular Components: From Monomer to In Situ Polymerization, a Review

To move toward eco-sustainable and circular composites, one of the most effective solutions is to create thermoplastic composites. The strong commitment of world organizations in the field of safeguarding the planet has directed the research of these materials toward production processes with a lowe...

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Bibliographic Details
Published in:Journal of composites science 2022-05, Vol.6 (5), p.132
Main Authors: Valente, Marco, Rossitti, Ilaria, Biblioteca, Ilario, Sambucci, Matteo
Format: Article
Language:English
Subjects:
anionic polyamide 6
Anionic polymerization
Caprolactam
casting
Chemical properties
composite LCA
Composite materials
Crystallization
Environmental impact
Fiber composites
Glass fiber reinforced plastics
High density polyethylenes
Investigations
Life cycle assessment
Moisture absorption
Molecular weight
Monomers
Nylon 6
Optimization
Polymer matrix composites
Polymer melts
Polymerization
Process parameters
Thermoplastic composites
thermoplastic resin
Thermoplastic resins
vacuum infusion
Viscosity
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Summary:To move toward eco-sustainable and circular composites, one of the most effective solutions is to create thermoplastic composites. The strong commitment of world organizations in the field of safeguarding the planet has directed the research of these materials toward production processes with a lower environmental impact and a strong propensity to recycle the polymeric part. Under its chemical properties, Nylon 6 is the polymer that best satisfies this specific trade-off. The most common production processes that use a thermosetting matrix are described. Subsequently, the work aimed at investigating the use of thermoplastics in the same processes to obtain comparable performances with the materials that are currently used. Particular attention was given to the in situ anionic polymerization process of Nylon 6, starting from the ε-caprolactam monomer. The dependencies of the process parameters, such as temperature, time, pressure, humidity, and concentration of initiators and activators, were therefore investigated with reference to the vacuum infusion technique, currently optimized only to produce thermosetting matrix composites, but promising for the realization of thermoplastic matrix composite; this is the reason why we chose to focus our attention on the vacuum infusion. Finally, three production processes of the polymeric matrix and glass fiber composites were compared in terms of carbon footprint and cumulative energy demand (CED) through life-cycle assessment (LCA).
ISSN:2504-477X
2504-477X
DOI:10.3390/jcs6050132