Bart Van Doninck scite author profile

Adhesive joints are increasingly used in industry for a wide variety of applications because of their favorable characteristics such as high strengthto-weight ratio, design flexibility, limited stress concentrations, planar force transfer, good damage tolerance and fatigue resistance. Finding the optimal process parameters for an adhesive bonding process is challenging: the optimization is inherently multi-objective (aiming to maximize break strength while minimizing cost) and constrained (the process should not result in any visual damage to the materials, and stress tests should not result in failures that are adhesion-related). Real life physical experiments in the lab are expensive to perform; traditional evolutionary approaches (such as genetic algorithms) are then ill-suited to solve the problem, due to the prohibitive amount of experiments required for evaluation. In this research, we successfully applied specific machine learning techniques (Gaussian Process Regression and Logistic Regression) to emulate the objective and constraint functions based on a limited amount of experimental data. The techniques are embedded in a Bayesian optimization algorithm, which succeeds in detecting Pareto-optimal process settings in a highly efficient way (i.e., requiring a limited number of extra experiments).

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Multi-objective simulation optimization of the adhesive bonding process of materials

Morales-Hernández¹,

Nieuwenhuyse²,

Rojas³

et al. 2021

Preprint

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Bart Van Doninck

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Multi-objective simulation optimization of the adhesive bonding process of materials

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