e-Polymers (Oct 2023)

Fatigue behaviour of Kevlar/carbon/basalt fibre-reinforced SiC nanofiller particulate hybrid epoxy composite

  • Raja Thandavamoorthy,
  • Mohanavel Vinayagam,
  • Velmurugan Palanivel,
  • Seeniappan Kaliappan,
  • Singh Durgesh Pratap,
  • Djearamane Sinouvassane,
  • Tey Lai-Hock,
  • Wong Ling Shing,
  • Kayarohanam Saminathan,
  • Obaid Sami Al,
  • Alfarraj Saleh,
  • Sivakumar Subpiramaniyam

DOI
https://doi.org/10.1515/epoly-2023-0048
Journal volume & issue
Vol. 23, no. 1
pp. p. 137 – 40

Abstract

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It is vital to conduct research on the behaviour of natural fibre composites under cyclic loading in order to have confidence in the mechanical durability. During this study, the fabrication of composite laminates will be carried out by the hybridization effect of natural and synthetic fibres. Quantifying the impact that the SiC filler (10, 20, and 30 g) has when combined with the fibre reinforcement and epoxy matrix (275 g) under cyclic loading circumstances and determining the significant sequence of hybrid composites are the goals of this research. The results of the tensile mode were used to determine the input parameters, and based on the tensile strength of the hybrid composite, 70% of the tensile strength was fixed at 3 Hz frequency as the input for fatigue analysis. The life span was then determined for the hybrid composite. The results of this fatigue test showed that increasing the amount of SiC nanofillers produced a very high potential output for the fatigue test. As a result of increasing the amount of silicon carbide fillers from 10 to 30 g, sample S3 was able to significantly tolerate 65% more life. Failure mode can be identified from scanning electron microscope analysis revealing the major porosity, matrix crack, and laminate bonding strength that causes the failure during fatigue analysis.

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