Acid-Cured Norbornylized Seed Oil Epoxides for Sustainable, Recyclable, and Reprocessable Thermosets and Composite Application

Thomas, Jomin; Nwosu, Joseph; Soucek, Mark D.

doi:10.1021/acsapm.2c02225

Cited by 10 publications

(5 citation statements)

References 88 publications

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“…The use of biomass filler increases a system's biobased content, reduces costs and reduces weight, one of these organic nanofillers being cellulose. 64 The demand for fiber-reinforced composite materials is increasing because of their exceptional low weight, high weight-to-strength ratio and long-term durability properties. As a result, the next generation of biobased polyurethanes must be economical and based on nondepletable biobased resources.…”

Section: Biodegradable Polyurethane Synthesis With Epoxidation Techni...mentioning

confidence: 99%

“…These unsaturated bonds are highly desirable for this type of application as they can be chemically modified through epoxidation to increase reactivity toward further polymerization. The use of biomass filler increases a system's biobased content, reduces costs and reduces weight, one of these organic nanofillers being cellulose 64 . The demand for fiber‐reinforced composite materials is increasing because of their exceptional low weight, high weight‐to‐strength ratio and long‐term durability properties.…”

Section: Biobased Polyurethanes: a Better Alternative To Conventional...mentioning

confidence: 99%

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Bioplastic: an eco‐friendly alternative to non‐biodegradable plastic

Mangal,

Rao,

Banerjee

2023

Polymer International

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The accumulation of non‐biodegradable plastic waste in land and aquatic environments is expanding every day. According to data collected from various scientific reports, about 100–250 megatonnes of plastic waste arrives in the oceans annually. According to the Central Control Board of India (2019–2020), India produces about 3.5 million metric tonnes of plastic waste annually, while only 5–10% of the produced waste is recycled. The non‐recycled plastic waste dumped into the environment either goes to landfills or directly goes to the sea, which disrupts the marine life of the ocean. We are highly dependent on plastic at household and industrial scales. Removal of plastic waste and lowering the use of hazardous and non‐biodegradable plastics are the main challenges. Researchers and industrialists have come up with many ideas to lower the generation of non‐biodegradable plastic waste and found that reusability is easier than degradability, while the use of bioplastics is the ultimate solution to tackle the plastic waste problem. Hence, developing eco‐friendly alternative plastics without compromising physicochemical and mechanical properties is the need of the hour. An eco‐friendly alternative to conventional or petrochemical plastics is bioplastics, which are environmentally safe, and reduce our dependency on fossil reserves. Therefore, this review focuses on eco‐friendly bioplastics as an efficient alternative to non‐biodegradable plastics. Among renewable and sustainable feedstocks available, vegetable oils are the most suitable resource for bioplastic production because of their renewability and economical nature. Hence, this study concluded that polyurethane‐based polymers from vegetable oils are inherently more eco‐friendly than most other plastics. © 2023 Society of Industrial Chemistry.

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Section: Biodegradable Polyurethane Synthesis With Epoxidation Techni...mentioning

confidence: 99%

Section: Biobased Polyurethanes: a Better Alternative To Conventional...mentioning

confidence: 99%

Bioplastic: an eco‐friendly alternative to non‐biodegradable plastic

Mangal,

Rao,

Banerjee

2023

Polymer International

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“…In addition, Alice Mija, [28][29][30] Jomin Thomas 31,32 et al reported the application of bio-based or vegetable oil epoxide, which could potentially compete with waterborne systems.…”

Section: Introductionmentioning

confidence: 99%

Synthesis and properties of a nonionic water-based epoxy curing agent

Guo,

Youhui,

Ziran

et al. 2023

Polymers and Polymer Composites

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Owing to the requirement for environmental protection, water-based coatings have become a significant trend in the development of coatings. The water-based epoxy curing agent has also become a hot research topic. In this study, a B-A-B epoxy compound with a long hydrophobic alkyl chain connected to the intermediate nitrogen atom was synthesized at both ends of a molecule using ethylene glycol diglycidyl ether and 3,4-dimethoxyaniline as raw materials. Subsequently, the epoxy compound was sealed with triethylenetetramine. A nonionic, water-based epoxy resin curing agent with amino groups at both ends of the molecule was prepared. The target product structure was confirmed by infrared spectroscopy (IR), Mass spectrum (MS), and Nuclear magnetic resonance hydrogen spectroscopy (1H-NMR). Additionally, through three factors and three levels of orthogonal experimental design, the optimum experimental conditions were confirmed, the optimum yield was 82.83%. The thermogravimetric analysis (TGA) indicated that the monomer exhibited a significant weight loss in the temperature range of 320–450°C. The pencil hardness, flexibility, and impact resistance of the waterborne epoxy resin coating film prepared by the non-ionic water-based epoxy curing agent reached or exceeded those of similar products at China and foreign countries.

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“…It restricts the sustainable development and application of thermoset polymers 7,8 . In 2011, Leibler and colleagues introduced dynamic covalent bonds (ester bonds) into the cross‐linked network of fatty acid or anhydride cured epoxy resins by accelerating the exchange of esters using catalysts, so that the network can be reprocessed with constant cross‐link density, and named this material “vitrimer.” 9 Epoxy vitrimers have the potential to become a more sustainable polymer material option by demonstrating reprocessability and environmental friendliness during processing 10,11 …”

Section: Introductionmentioning

confidence: 99%

“…9 Epoxy vitrimers have the potential to become a more sustainable polymer material option by demonstrating reprocessability and environmental friendliness during processing. 10,11 The curing kinetics and investigation of epoxy resins are an important issue of composite technology research, providing guidance and theoretical basis for the manufacturing forming and processing process of composites. There are various methods to study curing kinetics, such as differential scanning calorimetry (DSC), Fourier transform infrared (FTIR), and rheological analysis.…”

Section: Introductionmentioning

confidence: 99%

Curing and thermal degradation behavior of epoxy‐based vitrimers

Yang,

Zhang,

Luo

et al. 2023

J of Applied Polymer Sci

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Epoxy with associative covalent adaptable networks (CANs), called vitrimer, is reported to be promising to realize the recyclable utilization. The typical epoxy vitrimers are synthesized from diglycidyl ether of bisphenol A and dicarboxylic catalyzed by triazabicyclodecene (TBD). The study on the curing and thermal degradation behavior facilitates in‐depth understanding of the associative CANs. In this work, the effect of TBD on the curing and thermal degradation behavior is investigated via curing kinetics and thermal degradation performance analysis. The results reveal that the activation energy of curing reaction is increased as the amount of TBD is increased. EST‐5 has an average activation energy of 70.1 kJ/mol, while EST‐15 reaches as high as 75.1 kJ/mol. Especially, when the conversion is up to 50%, the activation energy shows an obvious increment. In addition, it has been demonstrated that TBD accelerates the thermal degradation of cured networks at lower temperature and increases the amount of volatiles during thermal decomposition.

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Acid-Cured Norbornylized Seed Oil Epoxides for Sustainable, Recyclable, and Reprocessable Thermosets and Composite Application

Cited by 10 publications

References 88 publications

Bioplastic: an eco‐friendly alternative to non‐biodegradable plastic

Bioplastic: an eco‐friendly alternative to non‐biodegradable plastic

Synthesis and properties of a nonionic water-based epoxy curing agent

Curing and thermal degradation behavior of epoxy‐based vitrimers

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