Thermal Stability and Hoop Tensile Properties of Glass Fiber Composite Pipes

Srebrenkoska, Vineta and Risteska, Svetlana and Mijajlovikj, Maja (2015) Thermal Stability and Hoop Tensile Properties of Glass Fiber Composite Pipes. International Journal of Engineering Research & Technology (IJERT), 4 (12). pp. 297-302. ISSN 2278-0181

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Aim of this work is to present the thermal properties and mechanical behaviour of glass fibre/epoxy resin
filament wound tubular structures winded with different
winding angles. Conducted thermal analysis have demonstrated
thermal stability of used epoxy resin system even at
temperatures higher than 130oC and small percent of weight loss until temperature of 350oC. With help of split-disc test hoop tensile strength of manufactured composite samples was investigated. Received results have confirmed the expectations that use of higher winding angle in filament winding technology lead to better mechanical properties of composite tubular structures subjected under internal pressure. Also, fibre-matrix deboning was determined as failure mechanisms by all samples.
SEM images have confirmed good merger between reinforcement and the matrix.

Item Type: Article
Subjects: Engineering and Technology > Materials engineering
Divisions: Faculty of Technology
Depositing User: Vineta Srebrenkoska
Date Deposited: 02 Feb 2016 09:53
Last Modified: 02 Feb 2016 09:53

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