Copolymers of tetrahydrofuran and epoxidized vegetable oils: application to elastomeric polyurethanes

Clark, Andrew J.; Hoong, Seng Soi

doi:10.1039/c3py01527k

Cited by 32 publications

(23 citation statements)

References 44 publications

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“…A research work completed by Ang et al [9] have successfully synthesized polyol with high molecular weight and low hydroxyl functionality which is potentially to be used in wood adhesive applications. Clark and Hoong [7] have reported to derive macromonomer polyols from EPO by Lewis acid ring opening reactions in tetrahydrofuran (THF) solvent and reacted with MDI to furnish elastomeric polyurethanes.…”

Section: Introductionmentioning

confidence: 99%

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Synthesis of Bio-Based Hydrogel From Epoxidized Palm Oil Catalyzed by Fluoroantimonic Acid Hexahydrate

Tajulruddin

Rahmat²,

Majid³

2016

MJAS

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An epoxidized palm oil-based hydrogel (HPEPO) was synthesized by using ring opening polymerization (ROP) in the presence of fluoroantimonic acid hexahydrate catalyst (HSbF 6 ·6H 2 O), followed by chemical hydrolysis catalyzed with sodium hydroxide (NaOH). The structural characterization and thermal property of synthesized hydrogel were studied. The successful ring opening of EPO was confirmed by disappearing of epoxy functional group at 833 cm -1 in the Fourier transform infrared (FTIR) spectrum. The formation of HPEPO was detected at 2500 cm -1 to 3400 cm -1 which represents the O-H stretching of carboxylic acid. Based on nuclear magnetic resonance (NMR), the disappearance of epoxy ring group at 2.8 -3.0 ppm has indicated the completely reacted oxirane ring with the presence of peak at 3.7 ppm corresponded to hydroxyl group. Meanwhile, HPEPO exhibited low thermal stability by having melting temperature around 45 °C to 60 °C in Differential scanning calorimetry (DSC) and as showed by the great percentage of weight loss in thermogravimetric analysis (TGA) curve. However, the formation of char residue was slow, probably due to the formation of hydrogen linkages in hydrogel.Keywords: hydrogel, epoxidized palm oil, ring opening polymerization, chemical hydrolysis AbstrakHidrogel berasaskan minyak sawit terepoksidasi (HPEPO) telah disintesis menggunakan polimerisasi pembukaan cincin (ROP) dengan kehadiran asid fluoroantimonik heksahidrat (HSbF 6 .6H 2 O) sebagai pemangkin, diikuti dengan hidrolisis kimia yang dimangkinkan oleh natrium hidroksida (NaOH). Pencirian struktur dan sifat termal hidrogel yang disintesis telah dikaji. Kejayaan pembukaan cincin minyak sawit terepoksidasi (EPO) telah disahkan melalui kehilangan kumpulan berfungsi epoksi pada 833 cm -1 dalam spektrum Fourier inframerah (FTIR). Pembentukan HPEPO dikesan pada 2500 cm -1 hingga 3400 cm -1 yang mewakili regangan O-H daripada asid karboksilik. Merujuk kepada resonans magnetik nuklear, kehilangan cincin epoksi pada 2.8 -3.0 ppm menunjukkan cincin oksiran telah bertindakbalas sepenuhnya dengan kewujudan puncak pada 3.7 ppm sepadan dengan kumpulan hidroksil. Sementara itu, HPEPO telah mempamerkan kestabilan haba yang rendah dengan mempunyai suhu lebur antara 45 °C to 60 °C daripada kalorimetri pengimbasan pembezaan (DSC) dan seperti yang ditunjukkan dalam kehilangan peratusan berat yang besar melalui lengkung analisis Termogravimetri (TGA). Walau bagaimanapun, pembentukan sisa arang didapati perlahan, berkemungkinan disebabkan oleh pembentukan ikatan hidrogen dalam hidrogel.Kata kunci: hidrogel, minyak sawit terepoksidasi, polimerisasi pembukaan cincin, hidrolisis kimia

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Section: Introductionmentioning

confidence: 99%

“…The production of macromonomer polyols through ring opening polymerization of EPO with Lewis acid in tetrahydrofuran [7] and with glycerol [8] has been reported. The benefit of EPO as a starting material is necessary to be explored progressively in order to expand the palm oil commercial value in various industrial areas.…”

Section: Introductionmentioning

confidence: 99%

Synthesis of Bio-Based Hydrogel From Epoxidized Palm Oil Catalyzed by Fluoroantimonic Acid Hexahydrate

Tajulruddin

Rahmat²,

Majid³

2016

MJAS

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“…for biofuels) [1,15], hydrogenation (for margarine synthesis) [16,17] and modification of the double bonds, one of the most common being epoxidation [12,18]. Epoxidized oils have a variety of uses including as resins [19], as precursors of polyols for polyurethane synthesis [14,20] and for coatings [21].…”

Section: Introductionmentioning

confidence: 99%

“…Vegetable oils have also generated interest for their structure, with the commonest oils being triglycerides made mainly from five fatty acids; oleic (C18:1), linoleic (C18:2), linolenic (C18:3), stearic (C18:0) and palmitic (C16:0). These oils, therefore containing varying amounts of carbon-carbon double bonds, which can easily be modified making them interesting from a chemical point of view [3][4][5][6][7][8][9][10][11][12][13][14].…”

Section: Introductionmentioning

confidence: 99%

“…Vegetable oils are generating much interest as a feedstock for polymers, this is partly because they are environmentally friendly, have high purity, are annually renewable [2] and their relative ease of functionalization provides materials with useful thermal and mechanical properties [3][4][5][6][7][8][9][10][11][12][13][14]. Vegetable oils have also generated interest for their structure, with the commonest oils being triglycerides made mainly from five fatty acids; oleic (C18:1), linoleic (C18:2), linolenic (C18:3), stearic (C18:0) and palmitic (C16:0).…”

Section: Introductionmentioning

confidence: 99%

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Synthesis and Properties of Polyesters from Waste Grapeseed Oil: Comparison with Soybean and Rapeseed Oils

2016

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The aim of this study was to investigate the application of grapeseed oil, a waste product from the wine industry, as a renewable feedstock to make polyesters and to compare the properties of these materials with those derived from soybean and rapeseed oils. All three oils were epoxidized to give renewable epoxy monomers containing between 3.8 and 4.7 epoxides per molecule. Polymerisation was achieved with cyclic anhydrides catalysed by 4-methyl imidazole at 170 and 210°C. Polymers produced from methyl tetrahydrophthalic anhydride (Aradur917 Ò ) had greater tensile strength and Young's Modulus (tensile strength = 12.8 MPa, Young's Modulus = 1005 MPa for grapeseed) than methyl nadic anhydride (MNA) derived materials (5.6 and 468 MPa for grapeseed) due to increased volume of MNA decreasing crosslink density. Soybean and grapeseed oils produced materials with higher tensile strength (5.6-29.3 MPa) than rapeseed derived polyesters (2.5-3.9 MPa) due to a higher epoxide functionality increasing crosslinking. T g 's of the polyesters ranged from -36 to 62°C and mirrored the trend in epoxide functionality with grapeseed producing higher T g polymers (-17 to 17°C) than soybean (-25 to 6°C) and rapeseed (-36 to -27°C). Grapeseed oil showed similar properties to soybean oil in terms of T g , thermal degradation and Young's Modulus but produced polymers of lower tensile strength.Therefore grapeseed oil would only be a viable substitute for soybean for low stress applications or where thermal properties are more important.

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Polymer Blends Based on Bioepoxy Polymers

Kumar

Krishnan²

2021

Bio‐Based Epoxy Polymers, Blends and Composites

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Copolymers of tetrahydrofuran and epoxidized vegetable oils: application to elastomeric polyurethanes

Cited by 32 publications

References 44 publications

Synthesis of Bio-Based Hydrogel From Epoxidized Palm Oil Catalyzed by Fluoroantimonic Acid Hexahydrate

Synthesis of Bio-Based Hydrogel From Epoxidized Palm Oil Catalyzed by Fluoroantimonic Acid Hexahydrate

Synthesis and Properties of Polyesters from Waste Grapeseed Oil: Comparison with Soybean and Rapeseed Oils

Polymer Blends Based on Bioepoxy Polymers

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