Your search keyword '"Kanbur, Yasin"' showing total 2 results

1. Mechanical, electrical, and melt flow properties of polyurethane elastomer/surface-modified carbon nanotube composites.

Author

Tayfun, Umit, Kanbur, Yasin, Abacı, Ufuk, Güney, Hasan Yüksel, and Bayramlı, Erdal

Subjects

*POLYURETHANE elastomers, *ELECTRIC properties of carbon nanotubes, *POLYMERIC composites, *ELASTOMERS, *PLASTIC extrusion, *MECHANICAL properties of polymers

Abstract

Carbon nanotube-reinforced polyurethane elastomer composites were prepared by melt-mixing. Nitric acid oxidation and silanization were applied to carbon nanotube surfaces to achieve better interfacial interactions with polyurethane elastomer. Tensile and hardness tests, differential scanning calorimetry, melt flow index test, dielectric measurements, and morphological studies of composites were reported. The best results were obtained for surface-modified carbon nanotubes containing composites with lower loading levels. Addition of carbon nanotubes leads to almost two-fold increase in strain and modulus compared to pristine polyurethane elastomer. Tensile strength of composites was also improved by inclusion of carbon nanotubes. However, strength values drop down with increasing carbon nanotube content. Shore hardness increased with the inclusion of modified carbon nanotube to polyurethane elastomer while pristine carbon nanotube caused remarkable decrease in hardness of polyurethane elastomer. Relatively higher melting points and slightly lower glass transition temperatures were observed for carbon nanotube-loaded composites compared to polyurethane elastomer because of plasticizing effect of carbon nanotube. Incorparation of carbon nanotube to polyurethane elastomer matrix caused reduction in melt flow index values due to formation of agglomarates, and n the contrary, surface modifications of carbon nanotube exhibited increase in melt flow index thanks to enhanced interfacial interactions between carbon nanotube and polyurethane elastomer. Significant increase in dielectric constant of composites was observed. Better dispersion of surface modified carbon nanotubes into polyurethane elastomer was also concluded from SEM micrographs of composites. [ABSTRACT FROM AUTHOR]

Published

2017

2. Electrical and Mechanical Properties of Polypropylene/Carbon Black Composites.

Author

KANBUR, YASIN and KÜÇÜKYAVUZ, ZUHAL

Subjects

*POLYPROPYLENE, *COMPOSITE materials, *THERMOPLASTICS, *MATRICES (Mathematics), *ELECTRIC conductivity, *PLASTICS, *RUBBER industry

Abstract

Polypropylene(PP)/carbon black(CB) composites at different compositions were prepared via melt blending of PP with CB. The effect of CB content on mechanical and electrical properties was studied. Test samples were prepared by injection molding and compression molding techniques. The effect of processing type on mechanical and electrical properties was also investigated. Composites become semi-conductive by addition of 2wt% CB. The relation between mechanical and electrical properties was discussed. The influence of CB content on morphology and crystallinity was also studied. [ABSTRACT FROM AUTHOR]

Published

2009