Investigating the effect of magnetite (Fe3O4)‎ nanoparticles on mechanical properties of epoxy resin

Abstract EN

In this paper, study the effects of magnetite nanomaterial Fe3O4 on the mechanical properties of epoxy.

Dispersion of Fe3O4 nanoparticles in the epoxy resin was performed by ultrasonication.

The samples of the nanocomposites were prepared using the casting method.

The nanocomposites contain epoxy resins as a matrix material incorporated by different weight percentages of magnetite Fe3O4 that varies from 0wt.

% to 15wt.

% as a reinforcing material.

The epoxy with the additive reinforcement materials Fe3O4 was slowly mixed in a sonication bath for 15 minutes, then the mixture poured into silicon molds.

Field Emission Scanning Electron Microscopy FESEM and X-ray diffraction spectra XRD were used to characterize the morphological and structural properties of preparing samples and the distribution of Fe3O4 nanoparticles to the epoxy resin.

Mechanical testing consists of tensile, hardness shore, and three-point flexural tests were performed on the samples at room temperature according to ASTM standards.

The results showed that reinforcement by 15wt.

% of Fe3O4 nanoparticles maximizes these mechanical properties of nanocomposites compared with pure epoxy except for the young modulus's preferred weight at 9 wt.

% , this is due to aggregation of the additives nanomaterials in epoxy resin above 9 In this paper, study the effects of magnetite nanomaterial Fe3O4 on the mechanical properties of epoxy.

Dispersion of Fe3O4 nanoparticles in the epoxy resin was performed by ultrasonication.

The samples of the nanocomposites were prepared using the casting method.

The nanocomposites contain epoxy resins as a matrix material incorporated by different weight percentages of magnetite Fe3O4 that varies from 0wt.

% to 15wt.

% as a reinforcing material.

The epoxy with the additive reinforcement materials Fe3O4 was slowly mixed in a sonication bath for 15 minutes, then the mixture poured into silicon molds.

Field Emission Scanning Electron Microscopy FESEM and X-ray diffraction spectra XRD were used to characterize the morphological and structural properties of preparing samples and the distribution of Fe3O4 nanoparticles to the epoxy resin.

Mechanical testing consists of tensile, hardness shore, and three-point flexural tests were performed on the samples at room temperature according to ASTM standards.

The results showed that reinforcement by 15wt.

% of Fe3O4 nanoparticles maximizes these mechanical properties of nanocomposites compared with pure epoxy except for the young modulus's preferred weight at 9 wt.

% , this is due to aggregation of the additives nanomaterials in epoxy resin above 9 wt.

% .