A STUDY OF THE EFFECT OF FIBER CONTENT AND FIBER ORIENTATION ON THE TENSILE STRENGTH OF GLASS FIBER REINFORCED EPOXY COMPOSITE FOR PIPE PRODUCTION: A STATISTICAL APPROACH

Authors

  • Bassey Samuel Ahmadu Bello University
  • Saleh Ahmadu Bello University
  • Okpongette Ahmadu Bello University

DOI:

https://doi.org/10.11113/jm.v45.455

Keywords:

Composites, Natural Fibers, Optimization, Taguchi

Abstract

This study was aimed at optimizing the development parameters of a glass fiber reinforced epoxy composite for pipeline application. In this study, the Taguchi experimental design technique was applied to determine the best combination of process parameters (fiber content and orientation) for optimum tensile strength. The optimum tensile strength of 209.65MPa was reported at the fiber content of 50% and Fiber orientation of 45º. Analysis of variance also showed that in optimizing for high tensile strength, the glass fiber content and the fiber orientation are significant factors. The material at optimum tensile properties was applied in the simulation of the behavior of a high-pressured gas pipeline and results proved the reliability of the material in such application.

References

Aramide, F. O., Atanda, P. O., & Olorunniwo, O. O. (2012). Mechanical properties of a polyester fibre glass composite. International Journal of Composite Materials, 2(6), 147-151.

Batu, T., & Lemu, H. G. (2020). Investigation of mechanical properties of false banana/glass fiber reinforced hybrid composite materials. Results in Materials, 8, 100152.

Elkazaz, E., Crosby, W. A., Ollick, A. M., & Elhadary, M. (2020). Effect of fiber volume fraction on the mechanical properties of randomly oriented glass fiber reinforced polyurethane elastomer with crosshead speeds. Alexandria Engineering Journal, 59(1), 209-216.

Joseph, S., Sreekala, M. S., Oommen, Z., Koshy, P., & Thomas, S. (2002). A comparison of the mechanical properties of phenol formaldehyde composites reinforced with banana fibres and glass fibres. Composites Science and Technology, 62(14), 1857-1868.

Khan, Z. I., Arsad, A., Mohamad, Z., Habib, U., & Zaini, M. A. A. (2021). Comparative study on the enhancement of thermo-mechanical properties of carbon fiber and glass fiber reinforced epoxy composites. Materials Today: Proceedings, 39, 956-958.

Kumar, N., Avinash, P., Singh, A., & Debnath, K. (2020). Effect of Fiber Orientation on the Tensile and Wear Properties of Flax Fiber-Reinforced Composites. In Advances in Mechanical Engineering (pp. 505-513). Springer, Singapore.

Mostafa, N. H. (2019). Tensile and fatigue properties of Jute-Glass hybrid fibre reinforced epoxy composites. Materials Research Express, 6(8), 085102.

Nair, K. M., Diwan, S. M., & Thomas, S. (1996). Tensile properties of short sisal fiber reinforced polystyrene composites. Journal of applied polymer science, 60(9), 1483-1497.

Negawo, T. A., Polat, Y., Akgul, Y., Kilic, A., & Jawaid, M. (2021). Mechanical and dynamic mechanical thermal properties of ensete fiber/woven glass fiber fabric hybrid composites. Composite Structures, 259, 113221.

Pothan, L. A., Thomas, S., & Neelakantan, N. R. (1997). Short Banana Fiber Reinforced Polyester Composites: Mechanical, Failure and Aging Characteristics. Journal of Reinforced Plastics and Composites, 16(8), 744–765. https://doi.org/10.1177/073168449701600806

Sapuan, S. M., Aulia, H. S., Ilyas, R. A., Atiqah, A., Dele-Afolabi, T. T., Nurazzi, M. N., ... & Atikah, M. S. N. (2020). Mechanical properties of longitudinal basalt/woven-glass-fiber-reinforced unsaturated polyester-resin hybrid composites. Polymers, 12(10), 2211.

Sari, N. H., Pruncu, C. I., Sapuan, S. M., Ilyas, R. A., Catur, A. D., Suteja, S., ... & Pullen, G. (2020). The effect of water immersion and fibre content on properties of corn husk fibres reinforced thermoset polyester composite. Polymer Testing, 91, 106751.

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Published

2023-01-05

How to Cite

Samuel, B., Danjuma Saleh Yawas, & Akpan, I. (2023). A STUDY OF THE EFFECT OF FIBER CONTENT AND FIBER ORIENTATION ON THE TENSILE STRENGTH OF GLASS FIBER REINFORCED EPOXY COMPOSITE FOR PIPE PRODUCTION: A STATISTICAL APPROACH. Jurnal Mekanikal, 45(2), 15–22. https://doi.org/10.11113/jm.v45.455

Issue

Section

Mechanical

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