Summary

This paper reports thermophysical properties of lunar regolith simulant LHS-1 and ice sublimation kinetics in its mixtures with frozen water. Thermal diffusivity and specific heat measurements were conducted using differential scanning calorimetry and laser flash analysis. Sublimation rates were measured at specific temperatures and pressures. The results suggest that sublimation surface area is smaller than the particle surface area, affecting applicability to lunar regolith. The provided text appears to be a mix of metadata and content related to a scientific paper or article. It includes information about the paper's content, such as references to figures, tables, and supplementary materials, as well as details about the publication process, including DOIs, file types, and storage locations. There is also mention of the paper's title and authors, as well as information about the journal it was published in. The text also includes technical details about the files, such as their sizes, resolutions, and formats. This paper investigates the thermophysical properties of lunar regolith simulant LHS-1 and ice sublimation kinetics in its mixtures with frozen water. Specific heats and t

Methods and applications