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Spin-Trapping Analysis and Characterization of Thermal Degradation of Thermoplastic Poly(ether–ester) Elastomer

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journal contribution
posted on 30.01.2018 by Masayo Sono, Kenji Kinashi, Wataru Sakai, Naoto Tsutsumi
We investigated the thermal degradation of poly­(butylene terephthalate)-co-poly­(ethylene oxide) (PBT-co-PEO), a thermoplastic poly­(ether–ester) elastomer (TPEE), through proton nuclear magnetic resonance (NMR) spectroscopy, differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), dynamic mechanical analysis (DMA), gel permeation chromatography (GPC), and spin-trapping electron spin resonance (ESR) analysis to detect radical intermediates present during degradation. Three kinds of PBT-co-PEO with different component ratios of PBT/PEO were synthesized. The thermal degradation process of PBT-co-PEO was divided into four weight-loss stages. In the first stage from room temperature to 120 °C, we confirmed the production of two radical intermediates, O–CH–CH2 and CH2–, by the spin-trapping method. This suggested that the initial decomposition occurred at the OCH2–CH2O bond in the PEO units. Upon annealing at 120 °C, PBT-co-PEO showed a small degree of random degradation, while higher PBT contents induced gelation and the production of the characteristic oligomer PBT–PEO–PBT. The gelation was attributed to cross-linking between two O–CH–CH2 moieties of PBT. In the second stage from 120 to 340 °C, a large thermo-oxidative degradation of the PEO segment occurred, accompanied by an increase in the radical amount of spin adducts. In the third stage, the thermo-oxidative degradation of PBT units was observed. The radical intermediates were thus shown to be a primary factor of the thermal degradation characteristics of TPEE.

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