Affiliation:
1. Gaziantep Üniversitesi
2. GAZIANTEP UNIVERSITY
Abstract
In this study, polyester matrix composites reinforced by 1x1, 2x2, half- and full-cardigan rib pattern weft-knitted fabrics from glass and glass/aramid hybrid yarns were produced. Tensile, flexural and impact tests were applied to the composites. The 2x2 rib pattern composite showed the highest thickness and density. The hybridization of glass yarn with aramid yarn increased the thickness, while it decreased the density of composites. The 2x2 rib pattern composite showed the highest tensile modulus and tensile strength. Yarn hybridization increased tensile strength at statistically significant level. The composite with full-cardigan rib pattern displayed considerably higher flexural modulus and flexural strength than the composites with the other patterns. When glass and hybrid composites were considered separately, the rib fabric pattern exhibited significant effect on maximum load. The rib fabric pattern displayed also significant effect on absorbed energy for glass composites. The yarn hybridization dramatically increased maximum load and absorbed impact energy.
Subject
Industrial and Manufacturing Engineering,General Materials Science
Reference21 articles.
1. 1. Callister WD, Rethwisch DG. 2018. Materials science and engineering: an introduction (Vol. 9). New York: Wiley.
2. 2. Campbell F C. 2003. Manufacturing processes for advanced composites. Oxford: Elsevier.
3. 3. Strong AB. 2008. Fundamentals of composites manufacturing: materials, methods and applications. Michigan: Society of manufacturing engineers.
4. 4. Hearle JWS, Du GW. 1990. Forming rigid fibre assemblies: the interaction of textile technology and composites engineering. Journal of the Textile Institute, 81(4), 360-383.
5. 5. Cox BN, Flanagan G. 1997. Handbook of analytical methods for textile composites. Virginia : NASA.
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