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Experimental characterization and modeling of the mechanical behavior of brittle 3D printed food

N. Jonkers, J.A.W. van Dommelen, M.G.D. Geers

2020Journal of Food Engineering41 citationsDOIOpen Access PDF

Abstract

3D printing is a unique manufacturing method that enables food customization. The development of a modeling framework to predict mechanical properties of food products is an invaluable tool in such a customization process. To set up this framework, 3D printed samples are mechanically characterized by means of compression testing. The observed phenomena are captured in a constitutive model that describes the large deformation behavior and the brittle failure of the material. Due to the rough contact surface of 3D printed samples, spatial homogeneity is lost and parameter identification is rendered not straightforward. To incorporate this non-uniformity, the model is implemented in a finite element package. Simulations reveal the influence of this geometrical effect, allowing to identify the model parameters by which the mechanical behavior of the material is adequately described.

Topics & Concepts

BrittlenessPersonalizationFinite element methodHomogeneity (statistics)3d printedCharacterization (materials science)Materials scienceMechanical engineeringEngineering drawingComputer scienceEngineeringStructural engineeringComposite materialNanotechnologyManufacturing engineeringMachine learningWorld Wide WebAdditive Manufacturing and 3D Printing TechnologiesCellular and Composite StructuresInjection Molding Process and Properties
Experimental characterization and modeling of the mechanical behavior of brittle 3D printed food | Litcius