Printability Prediction of Three Gels for 3D Food Printing

Foods 2022 Pub Date : 2022-09-30 DOI:10.3390/foods2022-12986

Adrián Matas, María del Carmen Molina-Montero, M. Igual, P. García-Segovia, J. Martínez-Monzó

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引用次数: 3

Abstract

: A 3D food-printing technique has great potential for food customization. It offers a great variety of shapes, dimensions, etc. To obtain new suitable printing formulations, it is important to carry out printability studies. These studies seek to know the shape stability of formulations that are related to rheological and textural properties. Some authors are correlating printability with rheological and physico-chemical parameters. The objective of this study was to characterize the textural and rheological properties by means of extrusion and oscillatory tests, respectively, of three gels of different formulations for predicting their printability. The gels are composed of porcine gelatin plus iota-carrageenan (Gp + I), bovine gelatin with kappa-carrageenan (Gb + K) and methylcellulose (MC). t. The results showed that Gp + I and Gb + K need higher values of maximum force in an extrusion test than MC, but MC had less deviation in force value during the extrusion test. The three samples showed a predominantly elastic behavior and damping factor (tan δ ) between 0.14 (Gb + K) and 0.37 (MC). It was estimated that the maximum height of the samples should be 0.8 cm, 1 cm and 0.008 cm for Gp + I, Gb + K and MC, respectively, to exhibit 5% deformation after 1 h for a 3 cm diameter printed cylinder.

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三种凝胶用于3D食品打印的可打印性预测

一种3D食品打印技术在食品定制方面具有巨大的潜力。它提供各种形状、尺寸等。为了获得新的合适的印刷配方，进行印刷适性研究是很重要的。这些研究旨在了解与流变学和结构特性相关的配方的形状稳定性。一些作者将印刷适性与流变学和物理化学参数联系起来。本研究的目的是通过挤压和振荡测试分别表征三种不同配方凝胶的结构和流变特性，以预测其可印刷性。该凝胶由猪明胶加α -卡拉胶(Gp + I)、牛明胶加α -卡拉胶(Gb + K)和甲基纤维素(MC)组成。t.结果表明，Gp + I和Gb + K在挤压试验中所需的最大力值高于MC，而MC在挤压试验中所需的最大力值偏差较小。三种样品均表现出明显的弹性行为，阻尼系数(tan δ)在0.14 (Gb + K) ~ 0.37 (MC)之间。对于直径为3 cm的印刷圆柱体，Gp + I、Gb + K和MC，样品的最大高度应分别为0.8 cm、1 cm和0.008 cm，在1 h后产生5%的变形。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Foods 2022

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