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Abstract
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The present study aimed at exploring the effect of the addition of the reduced graphene oxide (RGO) as a
reinforcement element on the fatigue behavior of adhesively bonded lap joints. Hence, two sets of specimens
were produced with neat adhesive and adhesive-RGO composites and fatigue tests were conducted. Comparing
the results showed that an impressive fatigue life enhancement of 130% occurred in high cycle fatigue range of
the reinforced joints. Moreover, morphology study on the fractured surface indicated that the increase of surface
roughness was responsible for the improvements. This phenomenon could extend the crack initiation and propagation
period. Furthermore, a numerical study, along with a method to estimate fatigue life in the bonded
joints, was conducted. It was revealed that the method can be used to estimate fatigue life of both reinforced and
unreinforced samples accurately
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