Academic Thesis

Basic information

Name Matsuura Kouji
Belonging department
Occupation name
researchmap researcher code B000323745
researchmap agency Okayama University of Science

Title

Surface modification effects on the tensile properties of functionalised graphene oxide epoxy films

Bibliography Type

Author

Koji Matsuura, Yuki Umahara, Kazuma Gotoh, Yuko Hoshijima and Hiroyuki Ishida

Summary

Graphene oxide (GO) is a candidate for nanofillers to improve the mechanical and thermal stability of nanocomposites. In order to determine the molecular interaction to improve the mechanical properties of GO?epoxy resin composites, we investigated the relationship between GO oxidation properties and the tensile strength of the epoxy resin. With respect to GO preparation, graphite was oxidised by the Brodie or Hummers method, and the oxidised GO was reduced or chloride substituted. The X-ray photoelectron spectroscopy (XPS) spectral patterns indicate that a shorter Brodie oxidation method GO (B-GO) is associated with a higher proportion of hydroxyl groups. The oxidised GO materials, with the exception of the sample produced by the 54 h Brodie oxidation method, improved the tensile strength of the composites while the epoxy resin with reduced or chlorinated GO did not increase the tensile strength of the film. Based on XPS and elemental analyses, the improvement in the tensile strength is due to the presence of O atom based functional groups, such as hydroxyl groups, on the GO surface. The interaction between the epoxy resin and O atom based functional groups on the GO contributes to improving the tensile strength of the composites.

Surface modification effects on the tensile properties of functionalised graphene oxide epoxy films

Magazine(name)

RSC Advances

Publisher

Royal Society of Chemistry

Volume

8

Number Of Pages

StartingPage

9677

EndingPage

9684

Date of Issue

2018/03

Referee

Exist

Invited

Not exist

Language

English

Thesis Type

Research papers (academic journals)

ISSN

DOI

NAID

PMID

URL

J-GLOBAL ID

arXiv ID

ORCID Put Code

DBLP ID