Bio‐Based Polymers Obtained from Modified Fatty Acids and Soybean Oil with Tailorable Physical and Mechanical Performance

Hernández, Emanuel; Mosiewicki, Mirna Alejandra; Marcovich, Norma Esther

doi:10.1002/ejlt.202000182

Cited by 9 publications

(6 citation statements)

References 43 publications

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“…The same trend was observed in the work of Capiel et al 12 . and Hernández et al 20 . because the increase of STR in the copolymer modifies (increases) the amount of micro‐/nano‐gels formed during the first stages of curing and consequently also increases the amount of dispersion/reflecting zones with higher opacity values.…”

Section: Resultssupporting

confidence: 83%

“…In this way, the ratio of the plant oil to reactive diluent can be conveniently adjusted to control the physical, mechanical and biodegradable properties of the polymerized plant derivatives 19 . Furthermore, this chemical modification route could give rise to polymer precursors and later to polymers, with β‐hydroxyester groups that can lead to associative exchange reactions when they are submitted to thermal treatments 20,21 . These new materials, called vitrimers, are being considered for their potential technological applications because they can exhibit outstanding properties like self‐healing and surface welding, network malleability and shape memory, amongst others 22,23 …”

Section: Introductionmentioning

confidence: 99%

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Integrating ricinoleic acid derivates to thermoset polymers with tunable properties

Hernández

Marcovich

Mosiewicki

2021

Polymer International

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A highly functionalized biobased derivative of ricinoleic acid (MMRA) was synthesized through a two‐step procedure: maleinization of the hydroxyl group naturally present in this fatty acid followed by methacrylation of the carboxylic acid groups. The chemical structure of MMRA was confirmed by 1H NMR, infrared spectroscopy, gel permeation chromatography and analytical determinations. Thermoset polymers were further obtained by the free radical polymerization of MMRA with different amounts of styrene. The dependence of the color/transparency and tensile properties on sample composition was evaluated. Moreover, thermogravimetric and dynamic mechanical analyses were carried out to further characterize the obtained materials. All polymers were highly translucent with lightness values in the range 87.4–90.8 and opacity values below 13%. Their glass transition temperatures (Tg) ranged from 61.5 °C for the homopolymer MMRA to 104 °C for the copolymer containing 30 wt% MMRA. The rubbery storage modulus increased with MMRA content confirming the high functionality of the green precursor that led to polymers with high crosslinking density. Notably, pronounced damping capacity was also found in all copolymers made from MMRA / styrene. © 2021 Society of Chemical Industry

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Section: Resultssupporting

confidence: 83%

Section: Introductionmentioning

confidence: 99%

Integrating ricinoleic acid derivates to thermoset polymers with tunable properties

Hernández

Marcovich

Mosiewicki

2021

Polymer International

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“…The shape of water droplet on the sample surface is showed in Figure S7b, and the PG55‐1Im‐1 presented contact angle equal to 74.7 ± 0.5°, which did not differ significantly to other coating materials described in literature. For instance, Noè and collaborators achieved 74.9 ± 2.0° by photopolymerization (Type I) of EGSO and described it as an anticorrosion coating while polymers derived from ESO and methacrylated oleic or lauric acids in different proportions provided values between 70 and 86° 53,54 . In addition, Pawlak and coauthors reported contact angles between 66.4 and 80.8° for polymers obtained from maleinized vegetable oil and poly(lactic acid) 55 .…”

Section: Resultsmentioning

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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“…Polymer properties can also be controlled by changing the nature of the comonomer or the acrylated triglyceride, such as the use of acrylated epoxidized camelina oil instead of AESO to obtain a higher degree of functionality (Li & Sun, 2015). Renewable alternatives to styrene and divinyl benzene include methacrylated vanillyl alcohol (Chen, Liu, et al, 2020), methacrylated oleic and lauric acids (Hernandez et al, 2020), ethyl cellulose (Liu et al, 2021), and maleic anhydride (Lu et al, 2005), among others. AESO has also been combined with natural fibers and other fillers to produce composites with enhanced mechanical strength for automotive and construction applications (Liu & Tisserat, 2018; O'Donnell et al, 2004).…”

Section: Introductionmentioning

confidence: 99%

A review of fatty epoxide ring opening reactions: Chemistry, recent advances, and applications

Moser

Cermak

Doll

et al. 2022

J Americ Oil Chem Soc

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Fatty epoxides are produced from the corresponding alkenes by oxidation in the presence of peracids or other oxidants. The classic method is the Prilezhaev epoxidation in which peracids are generated by in situ oxidation of formic or acetic acids with hydrogen peroxide. Epoxidized vegetable oils and esters are used directly as biobased plasticizers and stabilizers for poly(vinyl chloride) or as important platform chemicals for the oleochemical industry. Nucleophilic attack at the oxirane moiety affords a variety of ring opened monomeric or polymeric products, which in many cases undergo further synthetic modification to yield finished products. The most common nucleophiles include water, alcohols, carboxylic acids, acid anhydrides, and amines, although numerous others can also lead to valuable functionalized fatty derivatives. This review summarizes the chemistry of fatty epoxide ring opening reactions as well as applications of the resultant products. Literature from the last 20 years will be emphasized, although older publications of particular significance will be included. Important applications include biobased lubricants as well as polyols for subsequent production of polyurethanes. In addition, ring-opening reactions hitherto unreported on fatty oxiranes will be suggested to facilitate further advancements in the chemistry and utility of fatty epoxides. Finally, interest in fatty epoxides and their consequent products will continue to grow due to the simplicity, efficiency, and versatility of oxirane formation and ring opening as well as the continued societal transition away from petroleum to a sustainable, circular, low-carbon, and biobased economy.

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Bio‐Based Polymers Obtained from Modified Fatty Acids and Soybean Oil with Tailorable Physical and Mechanical Performance

Cited by 9 publications

References 43 publications

Integrating ricinoleic acid derivates to thermoset polymers with tunable properties

Integrating ricinoleic acid derivates to thermoset polymers with tunable properties

Development of renewable thermosetting polymers based on grape seed oil derivatives

A review of fatty epoxide ring opening reactions: Chemistry, recent advances, and applications

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