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Influence of geometrical parameters on the strength of Hybrid CFRP-aluminium tubular adhesive joints

Nicolas P. Lavalette, Otto Bergsma, Dimitrios Zarouchas, Rinze Benedictus

2020Composite Structures22 citationsDOIOpen Access PDF

Abstract

Tubular adhesive joints, used in truss structures to join pultruded carbon fibre-reinforced polymer members to aluminium nodes, are modelled with varying dimensions. The numerical model uses a Cohesive Zone Modelling formulation with a trapezoidal traction-separation law for the adhesive layer, and experimental tests are carried to validate it. The results showed that the joint strength increases significantly with the bonding area, with a limit on the overlap length above which it stops increasing. This upper limit is affected by the thickness and tapering angle of the adherends, due to their influence on the shear stress distribution along the overlap. On the other hand, the adhesive thickness has only a marginal influence on the joint strength.

Topics & Concepts

TaperingMaterials scienceAdhesiveComposite materialTrussAluminiumStructural engineeringJoint (building)Layer (electronics)EngineeringComputer graphics (images)Computer scienceMechanical Behavior of CompositesStructural Behavior of Reinforced ConcreteStructural Load-Bearing Analysis
Influence of geometrical parameters on the strength of Hybrid CFRP-aluminium tubular adhesive joints | Litcius