Space food 4D additive manufacturing (4D-AM): Insight into food perception science and nutritional supplementation on physical and mental health of astronauts

Background

As humanity advances toward the universe, prolonged space missions face dual challenges of maintaining nutritional adequacy and psychological homeostasis amidst unique physiological stressors, especially microgravity-induced metabolic shifts and confinement in closed ecosystems. These conditions exacerbate multisystem health risks of astronauts. The four-dimensional additive manufacturing (4D-AM) system possesses the potential to address the dynamic physiological needs of crew members while alleviating psychological fatigue through enhanced sensory diversity and nutritional adaptability.

Scope and approach

First, this paper systematically describes the development of space food, emphasizing that 4D-AM is a paradigm-shifting technology. It facilitates task-oriented nutritional restructuring, enhances sensory engagement, and enriches psychological well-being through the dynamic deformation of food. The paper further explores how 4D-AM can sustain the relative stability of astronauts' physical and psychological health by modulating human perceptual capabilities and customizing nutritional profiles. Finally, it outlines the multifaceted challenges and future prospects associated with its implementation, including the impact of microgravity on human physiological functions and the necessity of real-time monitoring of astronauts' health.

Key findings and conclusions

4D-AM has the potential to synergize adaptive nutrient delivery with the alleviation of psychological stress, both of which are critical health strategies for interstellar missions. Nevertheless, the standards and processes associated with the 'smart material' aspect of 4D-AM require further standardization and research. Additionally, the accurate printing and quality assurance of food represent critical areas for future investigation. Effectively addressing these challenges could position 4D-AM as a foundational technology for supporting human endeavors in interstellar exploration.