Effect of induction mode on 3D printing characteristics of whey protein isolate emulsion gel

Journal article

Li, Guohua, Wang, Bo, Lv, Weiqiao, Mu, Rongyi and Zhong, Yuanliang. (2024). Effect of induction mode on 3D printing characteristics of whey protein isolate emulsion gel. Food Hydrocolloids. 146(Part A), p. Article 109255. https://doi.org/10.1016/j.foodhyd.2023.109255

Publication dates
Authors	Li, Guohua, Wang, Bo, Lv, Weiqiao, Mu, Rongyi and Zhong, Yuanliang
Abstract	This study mainly explored the influence of different induction modes such as NaCl and Transglutaminase on the 3D printing characteristics of whey protein isolate emulsion gel. The properties of gel were characterized from rheological properties, microstructure, Fourier transform infrared spectroscopy, thermal stability and other aspects, and the relationship between 3D printing molding characteristics of gel and its applicability as a diet for dysphagia was discussed. Strain and frequency sweep showed that the addition of NaCl made gel difficult to be extruded during printing, while the addition of TG could get the opposite result. From a microscopic point of view, too high concentration of NaCl would lead to the disordered aggregation of proteins, which would reduce the structural strength of gel and make the water binding unstable. The addition of TG made the gel network have an orderly three-dimensional structure, making the water binding more stable. Both NaCl and TG can cause the secondary structure of protein to be more orderly and the thermal stability to be reduced, and the texture characteristics such as hardness, resilence, springiness, gumminess and chewiness to be reduced. During 3D printing of emulsion gel containing high concentration of NaCl, unsmooth extrusion filaments and pattern collapse occurred. TG can significantly improve the accuracy of 3D printing products. This study provided a basis for the application of whey protein isolate emulsion gel in 3D printing.
Keywords	3D printing; whey protein isolate; emulsion gel; NaCl; transglutaminase; microstructure
Year	2024
Journal	Food Hydrocolloids
Journal citation	146 (Part A), p. Article 109255
Publisher	Elsevier Ltd
ISSN	0268-005X
Digital Object Identifier (DOI)	https://doi.org/10.1016/j.foodhyd.2023.109255
Page range	1-12
Funder	National Key Research and Development Program of China
Publisher's version	License All rights reserved File Access Level Controlled
Output status	Published
Online	09 Sep 2023
Publication process dates
Accepted	03 Sep 2023
Deposited	14 Nov 2023
Grant ID	2022YFF1101200

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