Adenine as Epoxy Resin Hardener for Sustainable Composites Production with Recycled Carbon Fibers and Cellulosic Fibers

Merighi, Stefano; Mazzocchetti, Laura; Benelli, Tiziana; Giorgini, Loris

doi:10.3390/polym12123054

Cited by 5 publications

(1 citation statement)

References 57 publications

(85 reference statements)

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“…One of the most promising processes to recycle CFRPs end-of-life and scraps is pyrogasification process, [3][4][5] which, besides producing a liquid/gaseous phase that can be used as energy and chemical feedstock, allows to obtain a high DOI: 10.1002/masy.202100384 added-value carbon fibers (CFs) fraction [3][4][5] that can be reimpregnated, possibly with sustainable biobased resins. [6] Pyrolysis can be widely applied to many difference substrates, [7,8] but in order to recover CFs the overall process requires two steps: 1) Pyrolysis, the matrix degradation under inert atmosphere leads to the formation of a solid residue composed of unmodified CFs covered with a carbonaceous layer.…”

Section: Introductionmentioning

confidence: 99%

Optimization of Pyro‐gasification of Carbon Fiber Reinforced Polymers (CFRPs)

Montorsi

Brancolini

Mazzocchetti

et al. 2022

Macromolecular Symposia

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This work focuses on the optimization of pyro-gasification process of carbon fiber reinforced polymers (CFRPs) with the aim of recovering carbon fibers (CFs) with properties suitable for the production of new more sustainable composites with high performances. In particular, the pyro-gasification process is carried out on cured CFRPs panels based on both epoxy (EC) and vinyl ester (VC) matrices, which are the two most used resins for CFRPs. The matrix degradation is evaluated via sample's weight loss measurement and the recovered CFs obtained after different time of treatment are analyzed to identify convenient pyro-gasification conditions to avoid damaging of the recovered CFs. The obtained results highlight the importance of the thickness of the composites to be treated for the identification of the more suitable pyro-gasification conditions.

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Section: Introductionmentioning

confidence: 99%

Optimization of Pyro‐gasification of Carbon Fiber Reinforced Polymers (CFRPs)

Montorsi

Brancolini

Mazzocchetti

et al. 2022

Macromolecular Symposia

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Fast Curing Biobased Epoxy Hardener for RTM Applications

Friebel

Hansen

Lüttke³

2023

Future Automotive Production Conference 2022

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Evaluation of the activity of amine hardeners of epoxy resins

Poloz,

Prosyanik,

Farat

et al. 2024

Vopr. Khim. Khim. Tekhnol.

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With the appearance of new epoxy resins and amines, which are widely used for hardening epoxy compositions using energy-saving technology (at "ordinary" temperatures), on the world market, the targeted selection of these materials to provide the desired technological and operational properties becomes relevant. In order to predictively choose amine hardeners for epoxy resins, their quantum-chemical calculations were performed using the semi-empirical parameterized 3 (PM3) method. The energy value of the highest occupied molecular orbital (HOMO) of amines and the absolute value of the energy gap || (the absolute difference in energies between the HOMO of amines and the lower vacant molecular orbital (LUMO) of epoxy resins) were used. The relationships between the absolute value of the energy gap || and the main technological parameters of the curing process of dian epoxy resin ED-20 with individual amines were established with pairwise correlation coefficients of not less than 0.977. The evaluation of the activity of modified polyamines and their mixtures in hardening epoxy resins is proposed to be carried out based on the maximum temperature of the exothermic reaction of interaction between the epoxy groups of resins and the amine groups of hardeners. The possibility of adjusting the temperature of the exothermic hardening reaction of epoxy compositions and their "viability" time by introducing epoxy-containing diluents with different values of the LUMO energy was shown.

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Adenine as Epoxy Resin Hardener for Sustainable Composites Production with Recycled Carbon Fibers and Cellulosic Fibers

Cited by 5 publications

References 57 publications

Optimization of Pyro‐gasification of Carbon Fiber Reinforced Polymers (CFRPs)

Optimization of Pyro‐gasification of Carbon Fiber Reinforced Polymers (CFRPs)

Fast Curing Biobased Epoxy Hardener for RTM Applications

Evaluation of the activity of amine hardeners of epoxy resins

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