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Utilization of Ethyl Cellulose in the Osmotically-Driven and Anisotropically-Actuated 4D Printing Concept of Edible Food Composites

Ezgi Pulatsu, Jheng‐Wun Su, Jian Lin, Mengshi Lin

2022Carbohydrate Polymer Technologies and Applications41 citationsDOIOpen Access PDF

Abstract

This study aimed to use ethyl cellulose (EC) as a shape-constraining and color-transforming material in four-dimensional printing (4DP) as exposed to external stimuli. Edible composites containing EC and gelatin were formed and submerged into water, resulting in osmotically-driven structural changes of the composites. The rheological properties, printing patterns, and the effects of constraint sites (EC) on shape-morphing behaviors of composites were investigated. The composites' aspect ratio, film thickness, and swelling properties were quantified to investigate their shape-morphing properties. The results demonstrate that the printing patterns affected the symmetric/asymmetric deformation of the composites. Photomicrographs indicate that the color of EC strips turned from transparent to white due to self-assembly, which is related to the curing time. The swelling index and capacity values ranged between 127.55 - 471.43% and 219.58 - 700%. This study provides insight into the mechanism of 4DP using edible materials to fabricate complex food structures with tunable properties.

Topics & Concepts

Composite materialMaterials scienceSwellingMorphingCuring (chemistry)CelluloseRheologyEthyl celluloseComposite numberMoldPolymerChemical engineeringComputer scienceEngineeringComputer visionAdvanced Materials and MechanicsAdditive Manufacturing and 3D Printing TechnologiesAdvanced Sensor and Energy Harvesting Materials
Utilization of Ethyl Cellulose in the Osmotically-Driven and Anisotropically-Actuated 4D Printing Concept of Edible Food Composites | Litcius