Mechanical Properties of Glass Fiber Composites Reinforced by Textile Fabric

Authors

  • Arturs Macanovskis Riga Technical University (LV)
  • Andrejs Krasnikovs Riga Technical University (LV)
  • Olga Kononova Riga Technical University (LV)
  • Galina Harjkova Riga Technical University (LV)
  • Vladislav Yevstignejevs Riga Technical University (LV)

DOI:

https://doi.org/10.17770/etr2015vol1.208

Keywords:

Elastic properties, glass fiber, polymer matrix, yarn

Abstract

Interest to structural application of textile reinforced polymer matrix composite materials (CM) is growing during last years. In different branches of machine building, aerospace, automotive and others industries we can find structural elements preferably be produced using such reinforcement. At the same time, such materials are exhibiting elastic and strength properties scatter. In the framework of the present investigation, we observe yarn penetrated by a resin in a composite as a reinforcing “macro” fiber. Such “macro” fiber mechanical properties were measured experimentally, for this purpose was produced and was tested by tension until fracture fiber samples, having different length. Then was elaborated and was realized structural strength probabilistic model. In the textile geometry, was picked out repeating structural element – polymer matrix volume with two curved “macro” fiber’s chunks inside it. Complete composite material volume is possible to represent as a set of repeating structural elements. External loads application leads to disperse structural elements failure. Neighboring to ruptured elements are overloaded leading to higher probability to fail for them. Using FEM was modeled stress state in “macro” fibers inside CM. Then, was numerically obtained stress distribution in composite material, having different number of broken loops. Probabilities of different numbers of failed elements were calculated.  Strength probability function, based on Weibull approach was obtained. CM samples were tested under tension and obtained results were compared with numerical modeling as well as were analyzed.

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References

A.Krasnikovs, O.Kononova, G.Harjkova, V.Zaharevskis and A.Galushchak „Mechanical Properties Characterization by Inverse Technique for Composite Reinforced by Knitted Fabric”, CD-Proceedings of ECCM15 – 15th European Conference on CompositeMaterials, Venice, Italy, 24-28 June 2012,8 p.

Kononova, O., Krasņikovs, A., Harjkova, G., Zaļeskis, J., Mačanovskis, E. Characterization of Mechanical Properties by Inverse Technique for Composite Reinforced by Knitted Fabric. Part 1. Material Modeling and Direct Experimental Evaluation of Mechanical Properties. Journal of Vibroengineering, 2012, Vol.14, Iss.2, pp.681-690.

Kononova, O., Krasņikovs, A., Dzelzītis, K., Harjkova, G., Vagele, A., Eiduks, M. Modelling and Experimental Verification of Mechanical Properties of Cotton Knitted Fabric Composites. Estonian Journal of Engineering, 2011, Vol.17, Iss.1, pp.39-50.

Ramakrishna S., Fujita A., Cuong N.K., Hamada H. Tensile failure mechanismsof knitted glass fibre fabric reinforced epoxy composites. (Proc. Conf.) Fourth Japan International SAMPE Symposium, 25–28 September 1995. pp. 661–666

https://en.wikipedia.org/wiki/Units_of_textile_measurement# Tex

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Published

2015-06-16

How to Cite

[1]
A. Macanovskis, A. Krasnikovs, O. Kononova, G. Harjkova, and V. Yevstignejevs, “Mechanical Properties of Glass Fiber Composites Reinforced by Textile Fabric”, ETR, vol. 1, pp. 133–138, Jun. 2015, doi: 10.17770/etr2015vol1.208.