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Modeling and Design of Zero‐Stiffness Elastomer Springs Using Machine Learning

Hyeongkeun Kim, Sameh Tawfick, William P. King

2022Advanced Intelligent Systems17 citationsDOIOpen Access PDF

Abstract

Architected metamaterials exhibit complex stress–strain responses, such as quasi‐zero stiffness (QZS) plateau response useful in vibration and energy absorption, by exploiting elastic instabilities such as buckling. However, the design of metamaterials with prescribed nonlinear mechanical properties is challenging due to the difficulty in accurately predicting nonlinear mechanical responses such as buckling and self‐contact, as well as geometric and material uncertainties. Herein, additive manufacturing (AM) with machine learning (ML) to demonstrate data‐driven modeling and the design of nonlinear elastomeric springs with a broad stress plateau is combined. 243 elastomer chi ( χ ) spring parts with different design parameters fabricated by AM are tested. A Gaussian process (GP) model is trained on key features of the measured mechanical response and predicts the mechanical response within a 3% error with as few as 97 parts. To account for the geometric and material uncertainties, the GP model to develop an uncertainty‐aware design optimization approach to tailor the mechanical response based on the covariance matrix adaptation evolution strategy (CMA‐ES) is utilized. Excellent agreement is demonstrated between the designed response and measured response over the range of plateau stress considered. The research illustrates the promise of experimental data‐driven approaches and AM in enabling complex material design.

Topics & Concepts

StiffnessNonlinear systemBucklingStress (linguistics)Materials scienceMetamaterialElastomerComputer scienceStructural engineeringSpring (device)VibrationMechanical engineeringEngineeringAcousticsComposite materialPhysicsLinguisticsQuantum mechanicsPhilosophyOptoelectronicsMechanical Engineering and Vibrations ResearchPolymer composites and self-healingAdditive Manufacturing and 3D Printing Technologies
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