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  • Title: Investigating the rheological properties and 3D printability of tomato-starch paste with different levels of xanthan gum.
    Author: Zhao Y, Li Y, Liu Q, Chen Q, Sun F, Kong B.
    Journal: Int J Biol Macromol; 2024 Feb; 257(Pt 1):128430. PubMed ID: 38043652.
    Abstract:
    Tomato is an inexpensive vegetable with high nutritional value,but it does not have the suitable self-supporting ability for 3D printing. Xanthan gum (XG) is a common thickener that may improve 3D printability of tomatoes paste. This study evaluated the printability of tomato-starch paste (TSP) by examining its rheological and textural properties and microstructure of 3D samples. The rheological results showed that apparent viscosity, recovery rate, storage modulus, loss modulus, initial and average rheological forces, and shear stress increased significantly (P < 0.05) with increase of XG levels in tomato-starch paste. The low-field NMR results showed that T21 and T22 of the TSP decreased with increase of XG levels (P < 0.05). With increase of XG levels, a dense network structure in the TSP was formed as observed in the microstructural images. The TSP with 5 g/kg XG had the highest printing accuracy, and the textural property showed that the addition of 5 g/kg of XG significantly improved the hardness, elasticity, and chewability of TSP (P < 0.05). Overall, with increase of XG levels the fluidity of the pseudoplastic gel formed by the tomato-starch system and increased the density of the structure, resulting in improved extrudability, shape stability, and self-supporting property.
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