Chemically Degradable Vitrimers Based on Divanillin Imine Diepoxy Monomer and Aliphatic Diamines for Enhanced Carbon Fiber Composite Applications

Telatin, Tommaso; De la Flor, Silvia; Montane, Xavier; Serra, Angels

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TITLE:

Chemically Degradable Vitrimers Based on Divanillin Imine Diepoxy Monomer and Aliphatic Diamines for Enhanced Carbon Fiber Composite Applications - imarina:9387470

Handle:

https://hdl.handle.net/20.500.11797/imarina9387470

URV's Author/s:	De la Flor Lopez, Silvia / Montané Montané, Xavier / Serra Albet, Maria Angels / Telatin, Tommaso
Author, as appears in the article.:	Telatin, Tommaso; De la Flor, Silvia; Montane, Xavier; Serra, Angels
Author's mail:	silvia.delaflor@urv.cat xavier.montane@urv.cat tommaso.telatin@urv.cat angels.serra@urv.cat
Author identifier:	0000-0002-6851-1371 0000-0002-1426-239X 0000-0003-1387-0358
Journal publication year:	2024
Publication Type:	Journal Publications
APA:	Telatin, Tommaso; De la Flor, Silvia; Montane, Xavier; Serra, Angels (2024). Chemically Degradable Vitrimers Based on Divanillin Imine Diepoxy Monomer and Aliphatic Diamines for Enhanced Carbon Fiber Composite Applications. Polymers, 16(19), 2754-. DOI: 10.3390/polym16192754
Papper original source:	Polymers. 16 (19): 2754-
Abstract:	This study presents the development of a diglycidyl monomer containing two imine groups that can act as dynamic and reversible bonds. During the curing of the monomer with two different amine hardeners, we confirmed the formation of new imine groups due to the transamination reaction between the imine groups of the diepoxy monomer with the amine groups of the hardener. The effect of this structural change was observed in the stress relaxation behavior, resulting in the overlapping of two different relaxation modes. The analytical modelling was able to extract two distinct characteristic relaxation times using a double-element Maxwell model. A second characterization of the stress relaxation process by frequency sweep experiments was performed to corroborate the results obtained, confirming speedy stress relaxation. Acid-catalyzed hydrolysis was performed on the studied materials, demonstrating the complete degradation of the network. We finally confirmed that the synthesized diepoxy compound is suitable for preparing carbon-fiber-reinforced composite materials, demonstrating easy fiber impregnation, fast reshaping, and especially a total degradation of the polymer matrix that allows for the recovery of the carbon fibers in mild conditions. This epoxy-amine system is an excellent candidate for overcoming the traditional limits of thermosets in preparing fiber-reinforced composites.
Article's DOI:	10.3390/polym16192754
Link to the original source:	https://www.mdpi.com/2073-4360/16/19/2754
Papper version:	info:eu-repo/semantics/publishedVersion
licence for use:	https://creativecommons.org/licenses/by/3.0/es/
Department:	Química Analítica i Química Orgànica
Licence document URL:	https://repositori.urv.cat/ca/proteccio-de-dades/
Thematic Areas:	Astronomia / física Biotecnología Chemistry (all) Chemistry (miscellaneous) Ciências biológicas ii Engenharias ii Farmacia General chemistry Odontología Polymer science Polymers and plastics
Keywords:	Carbon fiber composite Carbon fiber composites Chemical degradation Creep resistance Density Elasticity Epoxy vitrimers Ful Polyimine-epoxy vitrimers Polyimine–epoxy vitrimers
Entity:	Universitat Rovira i Virgili
Record's date:	2024-10-26

Description:	This study presents the development of a diglycidyl monomer containing two imine groups that can act as dynamic and reversible bonds. During the curing of the monomer with two different amine hardeners, we confirmed the formation of new imine groups due to the transamination reaction between the imine groups of the diepoxy monomer with the amine groups of the hardener. The effect of this structural change was observed in the stress relaxation behavior, resulting in the overlapping of two different relaxation modes. The analytical modelling was able to extract two distinct characteristic relaxation times using a double-element Maxwell model. A second characterization of the stress relaxation process by frequency sweep experiments was performed to corroborate the results obtained, confirming speedy stress relaxation. Acid-catalyzed hydrolysis was performed on the studied materials, demonstrating the complete degradation of the network. We finally confirmed that the synthesized diepoxy compound is suitable for preparing carbon-fiber-reinforced composite materials, demonstrating easy fiber impregnation, fast reshaping, and especially a total degradation of the polymer matrix that allows for the recovery of the carbon fibers in mild conditions. This epoxy-amine system is an excellent candidate for overcoming the traditional limits of thermosets in preparing fiber-reinforced composites.
Type:	Journal Publications info:eu-repo/semantics/publishedVersion
Contributor:	Química Analítica i Química Orgànica Universitat Rovira i Virgili
Títol:	Chemically Degradable Vitrimers Based on Divanillin Imine Diepoxy Monomer and Aliphatic Diamines for Enhanced Carbon Fiber Composite Applications
Subject:	Chemistry (Miscellaneous),Polymer Science,Polymers and Plastics Carbon fiber composite Carbon fiber composites Chemical degradation Creep resistance Density Elasticity Epoxy vitrimers Ful Polyimine-epoxy vitrimers Polyimine–epoxy vitrimers Astronomia / física Biotecnología Chemistry (all) Chemistry (miscellaneous) Ciências biológicas ii Engenharias ii Farmacia General chemistry Odontología Polymer science Polymers and plastics
Date:	2024
Creator:	Telatin, Tommaso De la Flor, Silvia Montane, Xavier Serra, Angels
Rights:	info:eu-repo/semantics/openAccess

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