Researchers from the Singapore University of Technology and Design developed a method to perform direct ink writing (DIW) 3D printing of milk-based products at room temperature, while maintaining its temperature sensitive nutrients.
3D printing of food has been achieved by different printing methods, including the widely used selective laser sintering (SLS) and hot-melt extrusion methods. However, these methods are not always compatible with temperature-sensitive nutrients found in certain types of food. For instance, milk is rich in both calcium and protein, but as these nutrients are temperature sensitive, milk is unsuitable for 3D printing using the aforementioned printing methods which require high temperature. While the cold-extrusion is a viable alternative, it often requires rheology modifiers or additives to stabilize printed structures. Optimising these additives is a complex and judicious task. For further information see the IDTechEx report on 3D Printed Materials 2020-2030: COVID Edition.
To tackle these limitations, the research team from ingapore University of Technology and Design's Soft Fluidics Lab changed the rheological properties of the printing ink and demonstrated DIW 3D printing of milk by cold-extrusion with a single milk product - powdered milk. The team found that the concentration of milk powder allowed for the simple formulation of 3D-printable milk inks using water to control the rheology. Extensive characterizations of the formulated milk ink were also conducted to analyse their rheological properties and ensure optimal printability.
"This novel yet simple method can be used in formulating various nutritious foods including those served to patients in hospitals for their special dietary needs," said the lead author and Ph.D. candidate from ingapore University of Technology and Design, Mr Lee Cheng Pau.
"Cold-extrusion does not compromise heat-sensitive nutrients and yet offers vast potential in 3D printing of aesthetically pleasing, nutritionally controlled foods customized for individual requirements," added Assistant Professor Michinao Hashimoto, the principal investigator of the study.
Source: Singapore University of Technology and Design
Top image: Pixabay