Özet:

Composite materials are defined as new generation engineering materials formed by the combination of two or more different materials groups in macro dimensions. As a result of the combination of these two phases, the material characteristics appear in the form of a combination of the strong characteristics of the matrix and the supplementary phase. The supplementary phase added to the matrix phase often improves the properties of the matrix, while in some cases it can cause a decrease in the mechanical properties. In such cases, the size of the supplement phase should be reduced to the nano level. In this way, the new generation of nanocomposite materials have been developed with additives made in nano-size to the matrix phase. In this study, nanoparticles supplemented epoxy nanocomposites have been studied with inclination resistance. Additional epoxy composite materials with a weight of 0.25% multi-sider carbon nanotubes and a weight of 0.25%, 0.5, 0.75 SiO2 nanoparticles have been tested according to ASTM D790 standards. Hexion MGS L160 is used as an epoxy. The inclination resistance of epoxy nanocomposites supplemented with hybrid nanoparticles is compared with the elasticity module, inclination resistance, unit shape changes. According to the turning test results, the most suitable additional rate was 0.25% SiO2 and 0.5% CCCNT, and the highest turning resistance was achieved at 138.42 MPa with an increase of 80.38% compared to pure epoxy. In the highest levels, there has been a decline in the value of tendance resistance. Thanks to the supplementation, an increase in inclination resistance is observed according to epoxy, while the unit shape changes are reduced. The maximum load amount increased by 71.47%.

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