Summary

This paper introduces JLU-H, a lunar highland regolith simulant made from anorthosite, designed for engineering applications. It compares JLU-H with Apollo 16 regolith and discusses its mechanical properties and behavior under simulated lunar conditions. The paper presents the development of a novel lunar highland soil simulant, J-1, with geotechnical properties suitable for use in large-scale engineering experiments. The simulant was characterized using various methods, including particle shape analysis, specific surface area measurement, and mechanical property testing. The results indicate that J-1 has a particle size distribution similar to lunar regolith, with a high proportion of fine particles. The simulant also exhibits a low bulk density and high porosity, which are important characteristics for simulating lunar soil. The paper also discusses the potential applications of J-1 in lunar missions, including the development of lunar bases and the extraction of resources from lunar soil. The provided text appears to be a series of URLs and file metadata related to images and SVG files, likely from a scientific or academic paper hosted on a platform like Elsevier or similar. The

Methods and applications