Study on Microstructure Effect of Carbon Black Particles in Filled Rubber Composites
The cross sections of blended natural/styrene-butadiene (NSBR) composites filled with different volume fractions of carbon particles were observed using a Quanta 250 scanning electron microscope. In addition, the sizes and distributions of the carbon particles were analyzed using Nano Measurer. A tw...
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Series: | International Journal of Polymer Science |
Online Access: | http://dx.doi.org/10.1155/2018/2713291 |
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doaj-49f0a26695a24e9289ed27c2fa6d48af2020-11-25T00:52:59ZengHindawi LimitedInternational Journal of Polymer Science1687-94221687-94302018-01-01201810.1155/2018/27132912713291Study on Microstructure Effect of Carbon Black Particles in Filled Rubber CompositesLi Hong Huang0Xiaoxiang Yang1Jianhong Gao2College of Chemical Engineering, Fuzhou University, Fuzhou, Fujian 350108, ChinaCollege of Chemical Engineering, Fuzhou University, Fuzhou, Fujian 350108, ChinaCollege of Chemical Engineering, Fuzhou University, Fuzhou, Fujian 350108, ChinaThe cross sections of blended natural/styrene-butadiene (NSBR) composites filled with different volume fractions of carbon particles were observed using a Quanta 250 scanning electron microscope. In addition, the sizes and distributions of the carbon particles were analyzed using Nano Measurer. A two-dimensional representative volume element model (RVE) for a rubber composite reinforced with circular carbon particles was established, and the uniaxial tensile behaviors of polymer nanocomposites with different particle size distribution patterns were simulated using the ABAQUS software. The results showed the following. (1) For the random models, if the difference of particle size was larger and particle distance was closer, stress distribution would be denser as well as the stress concentration would become greater. However, if the difference of particle size was small, for the case of same particle volume fraction, the particle size has little influence on the macromechanical properties whether the average size is large or small. (2) The correlation between the volume fraction and distribution of the carbon particles revealed that when the volume fraction of carbon black particles was larger than 12%, clusters between carbon particles in the polymer nanocomposites could not be avoided and the modulus of the composites increased with an increase in the cluster number.http://dx.doi.org/10.1155/2018/2713291 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Li Hong Huang Xiaoxiang Yang Jianhong Gao |
spellingShingle |
Li Hong Huang Xiaoxiang Yang Jianhong Gao Study on Microstructure Effect of Carbon Black Particles in Filled Rubber Composites International Journal of Polymer Science |
author_facet |
Li Hong Huang Xiaoxiang Yang Jianhong Gao |
author_sort |
Li Hong Huang |
title |
Study on Microstructure Effect of Carbon Black Particles in Filled Rubber Composites |
title_short |
Study on Microstructure Effect of Carbon Black Particles in Filled Rubber Composites |
title_full |
Study on Microstructure Effect of Carbon Black Particles in Filled Rubber Composites |
title_fullStr |
Study on Microstructure Effect of Carbon Black Particles in Filled Rubber Composites |
title_full_unstemmed |
Study on Microstructure Effect of Carbon Black Particles in Filled Rubber Composites |
title_sort |
study on microstructure effect of carbon black particles in filled rubber composites |
publisher |
Hindawi Limited |
series |
International Journal of Polymer Science |
issn |
1687-9422 1687-9430 |
publishDate |
2018-01-01 |
description |
The cross sections of blended natural/styrene-butadiene (NSBR) composites filled with different volume fractions of carbon particles were observed using a Quanta 250 scanning electron microscope. In addition, the sizes and distributions of the carbon particles were analyzed using Nano Measurer. A two-dimensional representative volume element model (RVE) for a rubber composite reinforced with circular carbon particles was established, and the uniaxial tensile behaviors of polymer nanocomposites with different particle size distribution patterns were simulated using the ABAQUS software. The results showed the following. (1) For the random models, if the difference of particle size was larger and particle distance was closer, stress distribution would be denser as well as the stress concentration would become greater. However, if the difference of particle size was small, for the case of same particle volume fraction, the particle size has little influence on the macromechanical properties whether the average size is large or small. (2) The correlation between the volume fraction and distribution of the carbon particles revealed that when the volume fraction of carbon black particles was larger than 12%, clusters between carbon particles in the polymer nanocomposites could not be avoided and the modulus of the composites increased with an increase in the cluster number. |
url |
http://dx.doi.org/10.1155/2018/2713291 |
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