4.7 Article

Improving freeze-thaw stability and 3D printing performance of soy protein isolate emulsion gel inks by guar & xanthan gums

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FOOD HYDROCOLLOIDS
卷 136, 期 -, 页码 -

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ELSEVIER SCI LTD
DOI: 10.1016/j.foodhyd.2022.108293

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SPI emulsion gel inks; Guar gum; Xanthan gum; Freeze -thaw treatment; 3D printing

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Frozen storage can extend the shelf life of 3D printing inks. Guar gum and xanthan gum were found to improve the freeze-thaw stability and printing performance of soy protein isolate (SPI) emulsion gel inks.
Frozen storage of 3D printing inks could increase their shelf life. We improved freeze-thaw stability and 3D printing performance of soy protein isolate (SPI) emulsion gel inks by guar (GG) and xanthan gums (XG). Freeze -thawed inks led to higher storage modulus (G '), lower water holding capability (WHC) and poor printing per-formance compared to initial inks. An increase in gums content decreased oil droplet aggregation and protein flocculation in all freeze-thawed inks, hence reducing syneresis in the gel structure and preventing solid-liquid separation during 3D printing. The freeze-thaw stability of SPI-XG inks was consistently greater than that of SPI-GG inks at the same concentrations, resulting in superior 3D printing performance. The hardness of cylinders printed with SPI-XG0.5 freeze-thawed inks was lower than that of the cylinders printed by initial inks, in contrast to the results of G'. At the maximum strain amplitude (500%), Lissajous analysis indicated that the SPI-XG0.5 freeze-thawed inks retained less energy than the initial inks, resulting in a weaker gel. Overall, this study demonstrated that freeze-thaw treatment negatively affected the 3D printing performance of SPI emulsion gel inks, but that the 3D printing performance of freeze-thaw inks could be reinforced by modifying the formulation.

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