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Effects of different heat-induced setting methods on the structural stability and properties of 3D-printed surimi gels

Zheng Yang, Kunyu Lu, Yadong Zhao, Xuezhi Shi, Wenhui Mao, Bin Zheng, Yan Xu, Pingping Gao, Rusen Zhou

2024LWT15 citationsDOIOpen Access PDF

Abstract

Surimi has gained popularity as a food-grade ink for the creation of novel 3D-printed foods. However, existing research predominantly focus on the printability of surimi and the resulting printed models, with limited attention given to the post-processing of these 3D-printed structures. Towards this knowledge gap, our study systematically investigated the impact of five common heat-induced setting methods, including one-step water bath (W1), two-stage water bath (W2), steam (S), oven (O) and microwave (M), on various 3D-printed models. Results showed that water bath-based methods (W1 and W2) induced the swelling of the 3D-printed models along the vertical axis, while O and M led to structural shrinkage. Due to the compensatory effect of water, W1 and W2 exhibited minimal cooking loss but higher levels of free water. S significantly reduced the water holding capacity due to a decrease in hydrogen bonds among the proteins. O resulted in substantial moisture loss, surface condensation and insufficient gelation. M with superior heat transfer efficiency favored extensive protein aggregation driven by the increased chemical forces, leading to a coarser gel network with highest gel strength. We expect that this study could provide new insights into the role of heat-induced setting methods in manufacturing 3D-printed surimi foods.

Topics & Concepts

3d printedShrinkageSwellingCondensationMaterials scienceHydrogen bondChemical engineeringComposite materialChemistryMoleculeThermodynamicsOrganic chemistryBiomedical engineeringEngineeringMedicinePhysicsAdditive Manufacturing and 3D Printing Technologies3D Printing in Biomedical ResearchMeat and Animal Product Quality