Journal
FULLERENES NANOTUBES AND CARBON NANOSTRUCTURES
Volume 29, Issue 6, Pages 475-485Publisher
TAYLOR & FRANCIS INC
DOI: 10.1080/1536383X.2020.1860945
Keywords
Poly(vinylacetate); carbon nanotube; nanocomposite; characterization; thermal kinetics
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This study aimed to improve the thermal stability of PVAc polymer by forming nanocomposites using MWCNT and functionalized MWCNT, and analyzing the thermal properties. Functionalization of p-MWCNT was done by hydroxylation, carboxylation and silylation reactions. The synthesized nanocomposites showed increased thermal stabilities and degradation temperatures, with the modified MWCNT dispersed in the PVAc matrix. The results were consistent with the Flynn-Wall-Ozawa method and showed higher activation energy for the second step.
The aims of this study were to improve the low thermal stability of poly(vinylacetate) (PVAc) polymer by forming its nanocomposite products according to solvent casting method with multi-walled carbon nanotube (MWCNT) and/or modified (functionalized) MWCNTs, and to perform thermal kinetics analysis of the thermal properties improved nanocomposites. Functionalization of p-MWCNTs (purified MWCNT) was carried out by hydroxylation, carboxylation and silylation reactions. The effects of the surface modification, the type of functional groups and the filler ratio to the thermal properties of the nanocomposites were investigated. The synthesized nanocomposites were characterized by Fourier transform infrared spectrum, differential thermal analysis-thermogravimetry (DTA/TG) and scanning electron microscope (SEM). It was found that; (i) the p-MWCNT was modified, (ii) the carbon nanotubes were dispersed in the tube structure in the PVAc matrix, (iii) the thermal stabilities, degradation temperatures (T (max1) and T (max2)) and T-x values of PVAc/p-MWCNT-COOH (1 wt%) and PVAc/p-MWCNT-O-APTS (0.5 wt%; APTS: 3-aminopropyltriethoxysilane) nanocomposites were increased, (iv) the experimental results were quite compatible with the Flynn-Wall-Ozawa method and (v) the activation energy of the second step was higher.
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