Tag Archives: lap-shear strength

1138–1146 J. Zavrtálek, M. Müller and V. Šléger
Low-cyclic fatigue test of adhesive bond reinforced with glass fibre fabric
Abstract |

Low-cyclic fatigue test of adhesive bond reinforced with glass fibre fabric

J. Zavrtálek¹*, M. Müller¹ and V. Šléger²

¹Czech University of Life Sciences in Prague, Faculty of Engineering, Department of Material Science and Manufacturing Technology, Kamýcká 129, CZ 165 21 Prague, Czech republic
²Czech University of Life Sciences in Prague, Faculty of Engineering, Department of Mechanical Engineering, Kamýcká 129, CZ 165 21 Prague, Czech republic
*Correspondence: zavrtalek@tf.czu.cz

Abstract:

Epoxy resins are widely used polymers, which are popular due to their workability, high tensile strength and a chemical resistance. The glass fibre fabric interlayer was used for improving the tensile and the quasi-.static lap shear strength of joints bonded with an epoxy adhesive.
The aim of the experiment is to clarify a fatigue behaviour (low-cyclic tests of the fatigue) of structural two-component epoxy adhesive applied to a constructional steel S235J0. The fabric was composed from type E glass fibres in a plain weave. For optimization of properties of the composite bond it was used various weights in grams of the fabric in the extent of 80, 110, 160 g m-2 for the fabric treated by a wax, where this treatment is determined for better spinning of fibres at the production of the fabric, and weights of grams of 80, 110, 163 g m-2 at the fabric with a chemical dressing determined for improving the adhesion between the fibres and the epoxy resin. The specimens for quasi-static and lap shear strength tests were made in accordance with EN 1465:2009. The difference of the saturation of the various types of fabrics with the epoxy adhesive was observed with SEM (Scanning Electron Microscopy). It is obvious from the experiment results that it came to the improvement of the quasi-static loading at all adhesive bonds reinforced with glass fibres. The adhesive bonds specimens A110, A160, B110 and B160 resisted to required 200 cycles at 80% loading. The test specimens without the fabric showed worse properties. 

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