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An experimental investigation on enhancing the strength and stiffness of GFRP co-cured composite joint: effect of glass powder addition

Vinayakrishnan Rajan, B. K. Gnanavel

2022Materials Research Express14 citationsDOIOpen Access PDF

Abstract

Abstract Co-cure adhesive joints are preferred by various industries, namely, automobile, marine and aerospace, to join two surfaces in structural applications, as a useful replacement for mechanical fastenings. The present work focusses on the mechanical properties and free vibration behaviour of co-cured glass fiber compositesreinforced with glass powder. In the course of the experimentation, the adhesive is being reinforced concurrently with glass powder in four different weight percentages, such as 0%, 0.5%, 1%, 1.5% and 2%. The mechanical testing results reveal that the addition of 1.5% of glass powder to the epoxy could relatively help in increasing the tensile strength and flexural strength of the co-cured glass fiber composites respectively to the degree of 11.68% (364.29 Mpa) and 24.75% (256.16 Mpa). The Single lap shear results show that the 0.5% glass powder reinforcement significantly increases the shear strength of the cocured glass fiber composites by 20.91% (19.31 Mpa). Furthermore, the free vibrational study of 1.5% co-cured composites shows that they have a higher fundamental natural frequency than the glass powder reinforced co-cured composites that have a lower weight percentage. Furthermore, the addition of glass powder to the co-cured composites helps in increasing the damping factor of the composites due to the glass powder agglomeration. Neat and glass powder reinforced co-cured samples are further analysed afterwards, using the mechanical and shear test by scanning electron microscopy.

Topics & Concepts

Materials scienceComposite materialGlass fiberComposite numberUltimate tensile strengthEpoxyFlexural strengthAdhesiveScanning electron microscopeShear strength (soil)Shear (geology)Environmental scienceSoil waterLayer (electronics)Soil scienceMechanical Behavior of CompositesTribology and Wear AnalysisNatural Fiber Reinforced Composites