R. Lemus-Mondaca, Luis Puente-Díaz, Alonso Vásquez-Montaño, Emilson León, Liliana Zura-Bravo, Jaime Ortiz-Viedma
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引用次数: 0
摘要
本研究评估了在以米粉为基础的糊状物中添加 "Cochayuyo "海藻粉(添加量为 30%、50% 和 70%)以提高其 3D 打印质量的可行性。研究探讨了糊状物的流变特性、打印质量、质地、热特性和 3D 打印食品的颜色。结果表明,添加了Cochayuyo的糊状物具有剪切稀化行为,粘度随着Cochayuyo浓度的增加而增加。粘弹性能和纹理轮廓分析(TPA)显示,Cochayuyo 提高了机械强度,使糊状物更容易流动,改善了打印食品的挤出性、保真度和形状保持性,这在以 15 mm s-1 打印的 RC50 和 RC70 中得到了更好的观察。差示扫描量热法(DSC)分析表明,配方中用部分大米粉替代了糯米粉。这提高了起始温度和熔融峰值温度,降低了熔融焓。CIE 颜色参数 a*、b* 和 L* 表明,添加糯谷苕粉后,颜色变为黄色和红色,但亮度大大降低。因此,Cochayuyo 海藻粉有可能被用于改进 3D 打印食品的制造,使其具有更好的流变学、机械、热、打印质量和营养特性,从而使智利大量存在的本地 Cochayuyo 海藻的开发利用成为可能。
Printability and Thermophysical Properties of Three-Dimensional-Printed Food Based on “Cochayuyo” Durvillaea antarctica Seaweed Flour
This research assessed the feasibility of adding Cochayuyo seaweed flour (at 30, 50, and 70% levels) to rice flour-based paste to improve its 3D printing quality. The paste’s rheological properties, printing quality, texture profile, thermal properties, and color of 3D-printed foods were explored. Results showed that pastes with Cochayuyo addition exhibited shear-thinning behavior, and viscosity increased with increased Cochayuyo concentration. Viscoelastic properties and a Texture Profile Analysis (TPA) revealed that Cochayuyo improved mechanical strength and made the paste easier to flow, improving printed food’s extrudability, fidelity, and shape retention, which was better observed in RC50 and RC70 printed at 15 mm s−1. A differential scanning calorimetry (DSC) analysis showed a partial substitution of rice flour for Cochayuyo flour in the formulation. This increased the onset and melting peak temperatures and reduced the enthalpy of fusion. CIE color parameters a*, b*, and L* showed that Cochayuyo addition increased the color to yellow and red; however, lightness was considerably reduced. Therefore, Cochayuyo flour could have the potential to be used for the manufacture improvement of 3D-printed food with better rheological, mechanical, thermal, printing quality, and nutritional properties, making possible the exploitation of the native Cochayuyo seaweed, which is highly available in Chile.