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Failure Mechanisms of GFRP Scarf Joints under Tensile Load

Carineh Ghafafian, Bartosz Popiela, Volker Trappe

2021Materials13 citationsDOIOpen Access PDF

Abstract

A potential repair alternative to restoring the mechanical properties of lightweight fiber-reinforced polymer (FRP) structures is to locally patch these areas with scarf joints. The effects of such repair methods on the structural integrity, however, are still largely unknown. In this paper, the mechanical property restoration, failure mechanism, and influence of fiber orientation mismatch between parent and repair materials of 1:50 scarf joints are studied on monolithic glass fiber-reinforced polymer (GFRP) specimens under tensile load. Two different parent orientations of [−45/+45]2S and [0/90]2S are exemplarily examined, and control specimens are taken as a baseline for the tensile strength and stiffness property recovery assessment. Using a layer-wise stress analysis with finite element simulations conducted with ANSYS Composite PrepPost to support the experimental investigation, the fiber orientation with respect to load direction is shown to affect the critical regions and thereby failure mechanism of the scarf joint specimens.

Topics & Concepts

Fibre-reinforced plasticMaterials scienceUltimate tensile strengthStiffnessComposite materialStructural engineeringComposite numberFailure mechanismFinite element methodFiberStress (linguistics)Joint (building)Ultimate loadMechanism (biology)EngineeringLinguisticsPhilosophyEpistemologyMechanical Behavior of CompositesStructural Behavior of Reinforced ConcreteStructural Analysis and Optimization