@ARTICLE{Winkelmann_Karol_A_Early,
 author={Winkelmann, Karol and Faizullah, Jan and Smakosz, Łukasz and Konopińska-Zmysłowska, Violetta and Eremeyev, Victor and Kujawa, Marcin},
 journal={Bulletin of the Polish Academy of Sciences Technical Sciences},
 pages={e151678},
 howpublished={online},
 year={Early Access},
 abstract={Recently, structural adhesives have become significant in the shaping of structural elements, especially in thin-walled structures, where they replace or supplement traditional connection methods. However, adhesive-bonded joints are highly susceptible to internal structural imperfections due to their application technique and the nature of the adhesive. These material inconsistencies impact the strength parameters and the mechanical behavior of the entire connection. This study proposes a simplified method for the probabilistic numerical modeling of structural imperfections in an adhesive layer. The adhesive is modeled as an uncorrelated random field with weakened elements representing structural imperfections randomly scattered throughout its entire volume. The percentage of these imperfections (in relation to the total volume) is adopted a random variable. By conducting experimental tests on dogbone specimens of a selected adhesive and comparing them to adequate numerical tests with varying volumes of weakened elements, the determination of the representative imperfection volume of the investigated adhesive was possible. Based on these tests, the calibration of the probability density function to describe the volume of the imperfections may be performed. Furthermore, the application of the random model for an adhesive-bonded single lap-joint is shown to be viable. Finally, the calculation of a probability-based mechanical response (in this case, the normal force at critical elongation) of the single lap-joint with structural imperfections is performed, and its resultant reliability is assessed and evaluated.},
 type={Article},
 title={A random field-based simulational identification of possible levels of material imperfections of adhesive-bonded joints},
 URL={http://czasopisma.pan.pl/Content/132447/PDF/BPASTS-04389-EA.pdf},
 doi={10.24425/bpasts.2024.151678},
 keywords={adhesive-bonded joints, adhesive imperfections, random fields, probabilistic analysis, reliability},
}