Effect of dispersibility of graphene nanoplatelets on the properties of natural rubber latex composites using sodium dodecyl sulfate-Reference-Cited by-同舟云学术

Effect of dispersibility of graphene nanoplatelets on the properties of natural rubber latex composites using sodium dodecyl sulfate

Published:2022-01-01 Issue:1 Volume:22 Page:752-762
ISSN:1618-7229
Container-title:e-Polymers
language:en
Short-container-title:

Author:

Che Wern Ming¹,Teh Pei Leng¹²,Yeoh Cheow Keat¹²,Jalil Jalilah Binti Abd¹,Lim Bee Ying¹,Rasidi Mohamad Syahmie Mohamad¹

Affiliation:

1. Faculty of Chemical Engineering Technology, Kompleks Pusat Pengajian Jejawi 2, Universiti Malaysia Perlis, Taman Muhibbah, Jejawi , 02600 Arau , Perlis , Malaysia

2. Frontier Materials Research, Centre of Excellence (FrontMate), Universiti Malaysia Perlis (UniMAP) , Perlis , Malaysia

Abstract

Abstract Natural rubber latex/graphene nanoplatelet (NRL/GNP) composites containing GNP-pristine and GNP–SDS were prepared by a simple mechanical mixing method. The main objective was to study the effect of dispersibility of GNP on the properties in NRL. X-ray diffraction confirmed the adsorption of sodium sulfate dodecyl (SDS) on the GNP surface. The results showed that high filler loading diminished the physical and mechanical properties of the composites but successfully endured to satisfy electrical conductivity to the NRL/GNP composites. Besides, the SDS surfactant-filled system demonstrated better physical, tensile, electrical, and thermal stability properties than the GNP-pristine. The intercalated and dispersed GNP–SDS increased the number of routes for stress and heat transfer to occur and facilitated the formation of conductive pathways as well, leading to the improvement of the properties as compared to NRL/GNP-pristine composites. However, as the GNP–SDS loading exceeded 5 phr, the GNP–SDS localized in the interstitial layer of NRL, restricted the formation of crosslinking, and interfered with the strain-induced crystallization ability of the composites.

Publisher

Walter de Gruyter GmbH

Subject

Polymers and Plastics,Physical and Theoretical Chemistry,General Chemical Engineering

Link

https://www.degruyter.com/document/doi/10.1515/epoly-2022-0058/pdf

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