1. Sequence distribution and crystal structure of poly(ethylene/trimethylene terephthalate) copolyesters
- Author
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Sheng-Rong Ye, Tien-Wei Shyr, and Chih-Ming Lo
- Subjects
Terephthalic acid ,Dimethyl terephthalate ,Materials science ,Ethylene ,Polymers and Plastics ,Organic Chemistry ,Crystal structure ,Copolyester ,Crystal ,chemistry.chemical_compound ,Polymerization ,chemistry ,Polymer chemistry ,Materials Chemistry ,Ethylene glycol - Abstract
The sequence distribution and the crystal structure of copolyesters synthesized from ethylene glycol, 1,3-propanediol, and dimethyl terephthalate with different molar volume ratios were investigated in this study. The triad sequence probabilities of ethylene/trimethylene terephthalate were characterized from the aromatic quaternary carbons by 13 C NMR. The composition of the copolyesters was determined from the aromatic quaternary carbons by 13 C NMR, and the methylene protons by 1 H NMR. Results show that 1,3-propanediol reacted faster with terephthalic acid in copolyester polymerization than ethylene glycol. The difference in monomer reactivity is significant in the polymerization. Although the constitutional units revealed a random distribution in the molecular chain by 13 C NMR, crystallites formed across the full range of ethylene glycol/1,3-propanediol composition by use of differential scanning calorimetry, a hot stage polarizing microscope, and a wide angle X-ray diffraction method. The WAXD deconvolution results show that the major constitutional repeating unit in the molecular chain dominates the crystal structure as a host crystal. The crystal structure was examined by a scanning electron microscope after a solvent etching. Photomicrographs show that the random distribution of the third constitutional unit in the molecular chain of copolyester significantly disturbs the host crystal formation and lamellar orientation.
- Published
- 2005
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