Curing of epoxidized linseed oil: Investigation of the curing reaction with different hardener types

Todorovic, Andrea; Resch‐Fauster, Katharina; Mahendran, Arunjunai Raj; Kern, Wolfgang

doi:10.1002/app.50239

Cited by 17 publications

(19 citation statements)

References 44 publications

(97 reference statements)

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“…On studying the FT-IR spectra of the ELO/DDSA thermoset (Figure ), we can highlight the disappearance of the peak at 3050 cm –1 (present in the ELO spectrum), which is characteristic of the C–H stretching of the methylene group of the epoxy ring, and the increase in the intensity of the peaks in the absorption region between 3000 and 2850 cm –1 attributed to the CH 2 and CH 3 aliphatic group stretching vibrations. Based on the literature, the first result can be associated with epoxy ring-opening, while the second one can be assigned to the epoxy-anhydride group reaction. ,− The absorption bands at 1738 cm –1 (CO stretching vibration of the ester group) and 1154 cm –1 (C–O stretching vibration of the ester group) increased considerably in the thermoset, which can indicate the occurrence of the esterification reactions through the cross-linking of ELO with DDSA. The intensity of the peaks at 795–820 cm –1 (C–O stretching vibration of the epoxy ring) decreases almost to extinction, showing the consumption of the epoxy group during copolymerization.…”

Section: Resultsmentioning

confidence: 99%

“…An important vegetable oil used for the synthesis of thermoset resins is linseed oil (LO) due to not only the high content of double bonds but also its multitude of natural properties such as inherent biodegradability, low toxicity toward environment and humans, low price, and abundant availability . Various academic studies have been developed to investigate the chemical reactivity of epoxidized LO (ELO) according to different initiators or hardeners to develop new polymeric resins with properties comparable to those of commercial epoxy resins. ,− Grauzeliene et al combined photo- and thermal polymerization of acrylated epoxidized soybean oil (ESO) and ELO with thiols, obtaining new biorenewable resins for 3D printing with good properties making them suitable biobased alternatives to bisphenol A diglycidyl ether (DGEBA). Pin et al developed biobased materials based on ELO copolymerized with methyl hexahydrophthalic anhydride (MHHPA) or benzophenone-3,3′,4,4′-tetracarboxylic dianhydride (BTDA).…”

Section: Introductionmentioning

confidence: 99%

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Influence of Keratin on Epoxidized Linseed Oil Curing and Thermoset Performances

Dinu

Briand

Mija

2021

ACS Sustainable Chem. Eng.

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Keratin, a valuable protein obtained from chicken feather waste from the food industry, was used in this study in combination with a biobased formulation of epoxidized linseed oil (ELO) and dodecenylsuccinic anhydride (DDSA). The influence of keratin on the ELO cross-linking reaction was studied using differential scanning calorimetry (DSC) and in situ Fourier transform infrared (FT-IR) spectroscopy, showing the chemical contribution of the protein during network formation. Moreover, keratin showed a positive effect on the overall performances of the network, glass transition, storage modulus, and tensile strength, proving its potential in developing sustainable materials with industrial application potential.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Influence of Keratin on Epoxidized Linseed Oil Curing and Thermoset Performances

Dinu

Briand

Mija

2021

ACS Sustainable Chem. Eng.

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“…By altering the curing agent, the properties of epoxidized linseed oil (Scheme 1(A)) could be adjusted within a certain range. For example, the glass transition temperature (T g ) of cured materials can be regulated from 12 to 145 C. 6 Because of its soft character and good processability, epoxidized castor oil has also been successfully used to prepare composite materials. [7][8][9] Khundamri et al 10 developed a soybean oil-based material enhanced by epoxidized mangosteen tannin in order to improve its compressive strength.…”

Section: High Performance Bio-based Epoxy Resinmentioning

confidence: 99%

Recent development on bio‐based thermosetting resins

Liu

Zhang

Shun

et al. 2021

Journal of Polymer Science

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Due to the rapid depletion of crude oil and serious environmental pollution, the synthesis of polymers from renewable resource is becoming more and more important. Up to now, a great variety of biomass and bio-based platform compounds have been taken to prepare the polymers. However, as two representative thermosetting resins, epoxy and benzoxazine resin derived from renewable feedstocks only obtain limited attention compared with the popular bio-based plastics, including PLA, PBAT and PHBV etc. The reason might be that the properties of previously reported thermosetting resins directly obtained from biomass are usually unsatisfied, and their application fields are limited. In this paper, the latest development on the synthesis of highperformance bio-based epoxy and polybenzoxazine resins are reviewed. In addition, to further broaden their applications, the functionalization strategies are also summarized. The objective of this work is to help us fully aware the present situation of bio-based thermosetting resins and then promote their faster development, especially practical application.

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“…Their reaction with epoxide rings has been extensively investigated for various applications 22‐25 . Some papers have studied the reaction between epoxidized vegetable oils and anhydrides, such as phthalic, 25 dodecenylsuccinic, 26 and others 27‐29 . Other papers used maleinized vegetable oils together with other epoxidized monomers as hardeners 30‐34 .…”

Section: Introductionmentioning

confidence: 99%

Development of renewable thermosetting polymers based on grape seed oil derivatives

Gaglieri

Alarcon

Magri

et al. 2022

J of Applied Polymer Sci

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The demand for polymeric materials increases year by year, and most of them are derived from nonrenewable sources, and their consume has been increasing year by year. Therefore, there is a demand for research on bioderived polymers that are viable to be produced on an industrial scale. Based on the lack of polymers produced exclusively using monomers derived from vegetable oils, this paper shows the syntheses of renewable thermosetting polymers derived exclusively from grape seed oil, which is a by-product from the wine and grape juice industries. After the evaluation of the effect of using or not catalyst, it was determined that increasing 1-methylimidazole amount in the monomer mixture provides the decreasing of parallel reactions. However, thermal and mechanical properties, as well as the crosslinking density of polymers do not change significantly using 1.0% or 5.0% of catalyst (the minimal amounts needed to favor the esterification). Based on the characterization, the final polymers are not favorable in applications that require high mechanical impacts. However, they would be excellent as coatings due to their elevated crosslinking density, hydrophobic properties and homogenous surface. In addition, based on the properties observed under UV-light, they can also be used as luminescent materials.

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Curing of epoxidized linseed oil: Investigation of the curing reaction with different hardener types

Cited by 17 publications

References 44 publications

Influence of Keratin on Epoxidized Linseed Oil Curing and Thermoset Performances

Influence of Keratin on Epoxidized Linseed Oil Curing and Thermoset Performances

Recent development on bio‐based thermosetting resins

Development of renewable thermosetting polymers based on grape seed oil derivatives

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