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Y. Wu, Y. C. Kan, L. Song and Y. Hu (2012) Polymers for Advanced Technologies 23 1612-1619.
Date: 2013-08-21   Author: SKLFS  ,   Source: WOS  ,
 

Y. Wu, Y. C. Kan, L. Song and Y. Hu (2012) The application of Ce-doped titania nanotubes in the intumescent flame-retardant PS/MAPP/PER systems. Journal/Polymers for Advanced Technologies 23 1612-1619. [In English]
Web link: http://dx.doi.org/10.1002/pat.3036
Keywords: titania nanotubes, Ce ionized, polystyrene, intumescent flame retardant, POLYPROPYLENE, DEGRADATION, TIO2, NANOCOMPOSITES, PHOSPHATE, CATALYSIS, POLYMERS, DIOXIDE, OXIDES, DYE
Abstract: In this work, we reported the synthesis, characterization of Ce-doped titania nanotubes (Ce-TNTs), and application in flame retardancy of an intumescent flame-retardant polystyrene (PS/IFR) system. The flame retardancy of polystyrene (PS) composite that was composed of pentaerythritol, microencapsulated ammonium polyphosphate, and PS was enhanced significantly by adding a small amount (0.1?wt%) of (Ce-TNTs). The thermal properties of the flame-retardant PS were investigated by thermogravimetric analysis, limiting oxygen index (LOI), vertical burning test (UL-94), scanning electronic microscopy, dynamic mechanical thermal analysis, and the real-time Fourier transform infrared spectrometry (FTIR). The maximal decomposition rate temperature of PS/IFR containing Ce-TNTs in air is much higher than that of other PS composite without Ce-TNTs. The LOI value of PS/IFR that contained 0.1?wt% of Ce-TNTs was increased from 27.0 to 28.5, and the UL-94 rating was also enhanced to V-0 from no rating when the total loading of additive was the same. The real-time FTIR showed that the degradation process was changed after the addition of TNTs. All results indicated that Ce-TNTs had a significant synergistic effect on the flame retardancy of PS/IFR. Copyright (c) 2012 John Wiley &, Sons, Ltd.

 
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