Influence of Blend Ratio on The Electrical Characteristics of Vulcanized SBR/NBR Blends Compatibilized by Cis-polybutadiene Rubber

Kamoun, Elbadawy; Doma, Ahmed Salah; Abboudy, Sayed; Khattab, Sherine N.; El-Bardan, Ali A.; Belal, Mohamed A.

doi:10.21608/ejchem.2018.5763.1495

Influence of Blend Ratio on The Electrical Characteristics of Vulcanized SBR/NBR Blends Compatibilized by Cis-polybutadiene Rubber

Document Type : Original Article

Authors

¹ Polymeric Materials Research Dept., Advanced Technology and New Materials Research Institute (ATNMRI), City for Scientific Research and Technological Applications (SRTA-City), New Borg Al-Arab City, 21934 Alexandria, Egypt

² Physics Dept., Faculty of Science, Alexandria University, Alexandria, Egypt

³ Chemistry Dept., Faculty of Science, Alexandria University, 426-Ibrahimia, Alexandria 21321, Egypt

10.21608/ejchem.2018.5763.1495

Abstract

Blends composed of styrene butadiene rubber (SBR) and acrylonitrile-butadiene rubber (NBR) have been fabricated by melt-blending technique using two-roll mill blend machine. Cis-polybutadiene rubber (CBR) was used as a compatibilizer for enhancing the homogeneity between blend phases. No previous reports were found to discuss improving electrical properties of vulcanized SBR/NBR blends using unfilled rubber system (i.e. no fillers incorporation). SEM micrographs were utilized to verify the compatibility between two rubber ingredients in various blends, owing to the use of compatibilizer. Thermal stability of blends was investigated by differential thermal analysis (DTA) and differential scanning calorimetric (DSC) to evaluate the influence of blend ratio on the compatibility of investigated samples. Results revealed that the dielectric properties of blends are dramatically influenced by altering the blend ratio. The results revealed that the SEM observations confirmed the compatibilization effect of CBR on vulcanized SBR/NBR blends. Meanwhile, thermal properties of vulcanized SBR/NBR blends were enhanced with increasing of SBR contents in blends. The complex impedance graphs showed circular arcs showing the bulk contribution to overall electrical behavior for investigated vulcanized SBR/NBR blends. During I-V characteristics have been presented, where a remarkably change from linear behavior to nonlinear conduction at lower temperatures was found for 0SBR/100NBR blends. These findings supported and confirmed that the compatibilization effect and the blend ratio between rubber compositions have strongly influenced on their thermal and electrical properties of vulcanized blends.

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