Summary

The paper discusses the development of a lunar habitat using regolith and 3D printing technology. It outlines the challenges of creating a sustainable and radiation-shielded environment on the Moon, emphasizing the importance of in-situ resource utilization (ISRU) for long-term human presence. The study also highlights the potential of using regolith as a building material and the need for further research on material properties and structural integrity under lunar conditions. The paper presents the assessment of dynamic properties of a lunar regolith simulant, specifically the NASA JSC-1A, under various loading conditions. The study focuses on the behavior of the material under cyclic loading and its implications for lunar exploration and construction activities. The research includes laboratory experiments to determine the mechanical response of the simulant under different stress levels and frequencies, with the aim of understanding its potential use in future lunar missions. The provided text appears to be a series of URLs and file paths related to digital content, likely from an academic or scientific publication. These URLs point to various image and vector graphic files (e.g

Methods and applications