2003
DOI: 10.1002/macp.200390072
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Synthesis of Poly(ethylene terephthalate)‐block‐Poly(tetramethylene oxide) Copolymer by Direct Polyesterification of Reactive Oligomers

Abstract: The object of this study was the synthesis of thermoplastic elastomer compounds by direct copolyesterification of reactive oligomers of poly(ethylene terephthalate) (PET) and of poly(tetramethylene oxide) (PTMO). PET was glycolysed to synthesise hydroxytelechelic oligomers of PET. Commercially available hydroxytelechelic PTMO was modified to synthesise carboxytelechelic oligomers. The chemical structures of these oligomers were investigated by 1H NMR and size exclusion chromatography. Multiblock poly(ester‐eth… Show more

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Cited by 20 publications
(29 citation statements)
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“…The PET oligomer has an average molecular mass of 1360 g·mol -1 , with an average polymerization number ( --DP n ) of 13.6. In these conditions, the molar weight of the obtained glycosilation products were lower than the products reported in the literature (about 1450 g·mol -1 [35] and 1800 g·mol -1 [36]), these values were obtained during the PET glycolysis with the ethylene glycol, using dibutyl tin oxide as the catalyst. The PET oligomer is soluble only in few solvents, for this reason, it is used in the molten state for further polyaddition.…”
Section: Results and Discussion 31 Synthesis Of Pet Oligomersmentioning
confidence: 58%
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“…The PET oligomer has an average molecular mass of 1360 g·mol -1 , with an average polymerization number ( --DP n ) of 13.6. In these conditions, the molar weight of the obtained glycosilation products were lower than the products reported in the literature (about 1450 g·mol -1 [35] and 1800 g·mol -1 [36]), these values were obtained during the PET glycolysis with the ethylene glycol, using dibutyl tin oxide as the catalyst. The PET oligomer is soluble only in few solvents, for this reason, it is used in the molten state for further polyaddition.…”
Section: Results and Discussion 31 Synthesis Of Pet Oligomersmentioning
confidence: 58%
“…This reaction of depolymerization is described in Figure 1. As described in several previous studies [32,35,36] the PET glycolysis products are $, '-hydroxyl oligomers. Indeed, different SEC analysis, 1 H NMR spectroscopy, and matrix-assisted laser desorption ionization time-of-flight mass spectrometry was established; these studies show a good correlation in the determination of hydroxyl end groups and molecular weights below 4000 g·mol (2) where I x ppm represents the integral value of the peak centered at x ppm.…”
Section: Results and Discussion 31 Synthesis Of Pet Oligomersmentioning
confidence: 69%
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“…De acordo com a literatura [26][27][28][29], grupos hidroxila podem reagir com grupos carboxila, via policondensação, para formar poliésteres, essa reação é capaz de gerar um grupo éster, onde a carbonila do ácido acrílico passa a compor esse grupo. Estando presente, essa reação contribui para aumento do peso molecular e então do torque dos sistemas PCL/PEgAA.…”
Section: Resultsunclassified
“…Saint-Loup and co-workers also used ethylene glycol in reactive extrusion to produce low molecular weight oligomers (1450+1800 g·mol -1 ) without quantification of their yields for synthesis of PET-polycarbonate polyesters. However, these oligomers had to be separated and purified for further processing, since the crude reaction product consisted of a heterogeneous mixture of BHET-analoga [215][216][217][218]. The second most common degrading agent for glycolysis was diethylene glycol.…”
Section: Glycolysismentioning
confidence: 99%