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Preparation and Properties of Polyethylene Terephthalate (PET)/Near Infrared Reflective Pigment (NIR) Composites
Authors:S.-M. Lai  J.-L. Liu  C.-Y. Huang  Wei-Jen Lai  Jiun-Wei Zeng  K.-C. Cheng
Affiliation:1. Department of Chemical and Materials Engineering , National I-Lan University , Taiwan , ROC;2. Taiwan Textile Research Institute , New Taipei City , Taiwan , ROC;3. Department of Chemical Engineering and Biotechnology , National Taipei University of Technology , Taipei , Taiwan , ROC;4. Taiwan Textile Research Institute , New Taipei City , Taiwan , ROC;5. Department of Chemical Engineering and Biotechnology , National Taipei University of Technology , Taipei , Taiwan , ROC
Abstract:A near infrared reflective (NIR, nickel antimony titanium yellow rutile) pigment filler was incorporated into a polyethylene terephthalate (PET) matrix via a melt blending approach to increase the infrared reflection of PET and limit the thermal heat accumulation in light of environmental and energy conservation concerns. Two different types of surface modifiers, polyethylene glycol (PEG) and cetyltrimethylammonium bromide (CTAB), were used to modify the NIR surface, as NIR–PEG and NIR–CTAB fillers, to investigate the surface modification effect. Fourier transform infrared spectroscopy (FTIR), a Zetasizer, and electron spectroscopy for chemical analysis (ESCA) results suggested a successful adsorption of the organic modifiers onto the NIR surface. Thermogravimetric analysis indicated a higher adsorption degree for the CTAB modifier than the PEG modifier due to the electronic interaction between CTAB and NIR. The thermal crystallization temperature (Tc) for neat NIR-filled samples decreased with increasing NIR content within the PET matrix at first, up to 9°C, but then tended to increase again up to a measurable difference of 6°C with respect to pure PEG, indicating the promotion of the crystallization kinetics of the neat NIR within the PET matrix. On the other hand, a decrease in Tc for all NIR-CTAB or NIR-PEG loadings was found, with the depression close to 10°C for all NIR-CTAB samples regardless of the loading. CTAB modified NIR gave the highest improvement in tensile strength and strain at break in comparison with NIR and NIR-PEG filled samples. The near infrared reflection values of modified PET were higher than those of neat PET. The reflection values appeared to be the highest for some concentrations of the NIR-CTAB filled samples, but were of similar orders of magnitude with those for NIR or NIR-PEG filled samples.
Keywords:composites  thermal properties  mechanical properties  near infrared reflective pigment  polyethylene terephthalate
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