Lee Cheng Pau, Hoo Jon Yi, Hashimoto Michinao
Pillar of Engineering Product Development, Singapore University of Technology and Design, 8 Somapah Rd Singapore 487372, Singapore.
SUTD-MIT International Design Centre (IDC), Singapore University of Technology and Design, 8 Somapah Rd Singapore 487372, Singapore.
Int J Bioprint. 2021 Apr 30;7(2):354. doi: 10.18063/ijb.v7i2.354. eCollection 2021.
We developed a method to perform direct ink writing (DIW) three-dimensional (3D) printing of coconut-based products with high oil content by varying compositions of the coconut oil and the coconut cream. The addition of oils is particularly crucial in providing energy, developing neurological functions, and improving the palatability of food. Despite the potential merits of high oil-content foods, there have been limited studies on 3D printing of high oil-content foods. In particular, the effect of oil content on the printability of food inks has not been studied to date. 3D printing of food inks with high oil contents is challenging due to oil separation that leads to unpredictable changes in rheological properties. In this work, we surveyed the behavior of the mixture of the coconut oil and the coconut cream and identified the appropriate conditions for the food inks that show the printability in DIW 3D printing. We initially formulated coconut cream inks added with coconut oil that did not exhibit oil separation, and characterized the rheological properties of such inks. We successfully 3D-printed coconut cream with additional coconut oil and successfully fabricated 3D structures with inks containing 25% water with an additional 10% (w/w) of coconut oil. Texture profile analysis (TPA) suggested that the hardness index and the chewiness index of mesh-shaped 3D-printed coconut cream decreased due to an increase in the water content of the ink. Overall, this study offered an understanding of the stability of the food inks and demonstrated the fabrication of 3D colloidal food with controlled oil content, which can be applied to formulating foods with tunable oil content to cater to individual nutritional needs without compromising the stability of the inks.
我们开发了一种方法,通过改变椰子油和椰奶的成分,对高油含量的椰子基产品进行直接墨水书写(DIW)三维(3D)打印。添加油对于提供能量、发展神经功能以及改善食物的适口性尤为关键。尽管高油含量食品有潜在优点,但关于高油含量食品3D打印的研究有限。特别是,油含量对食品墨水可打印性的影响迄今尚未得到研究。由于油分离会导致流变学性质发生不可预测的变化,因此对高油含量食品墨水进行3D打印具有挑战性。在这项工作中,我们研究了椰子油和椰奶混合物的行为,并确定了在DIW 3D打印中具有可打印性的食品墨水的合适条件。我们最初配制了添加椰子油且未出现油分离的椰奶墨水,并对这些墨水的流变学性质进行了表征。我们成功地用添加了椰子油的椰奶进行了3D打印,并成功地用含有25%水和额外10%(w/w)椰子油的墨水制造了3D结构。质地剖面分析(TPA)表明,由于墨水中水分含量的增加,网状3D打印椰奶的硬度指数和咀嚼性指数降低。总体而言,这项研究增进了对食品墨水稳定性的理解,并展示了具有可控油含量的3D胶体食品的制造,这可应用于调配具有可调油含量的食品,以满足个体营养需求,同时不影响墨水的稳定性。
