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This study examines the mechanical behavior of the lunar highland simulant LHS-1E under varying moisture content. It reports compressive, shear, and tensile strength measurements, along with Young's modulus, friction angle, cohesion, and Poisson's ratio. The findings highlight the transition from friction-dominated to ice-bonded granular behavior under moisture. This paper investigates the mechanical response of ice-cemented lunar regolith simulant LHS-1E under varying moisture content. It highlights challenges in reproducing geomechanical properties of lunar regolith and references Apollo samples for comparison. Key geotechnical properties like shear strength, compressibility, and particle size distribution are discussed. This paper investigates the mechanical properties of the lunar highland simulant LHS-1E under varying moisture contents and low temperatures. It reports compressive, shear, and tensile strengths of frozen LHS-1E at moisture contents of 5%, 7%, 9%, 11%, and 13%. The study focuses on ice bonding effects under controlled laboratory conditions. This paper investigates the strength evolution of the lunar regolith simulant LHS-1E under varying moisture content, using c

The paper discusses the morphological characteristics and breeding value of the sterile spring rapeseed line LHS-1 based on the CMS Polima. It references various studies and genetic analyses related to the Polima cytoplasmic male sterility in Brassica napus L.

This paper investigates the mechanical properties of melted lunar regolith simulant JSC-1A, focusing on compression strength, hardness, density, magnetic properties, and drilling capability. The simulant is derived from volcanic ash and is used to explore in-situ resource utilization (ISRU) for space applications. The paper discusses the use of melted lunar regolith simulant JSC-1A as a structural material, focusing on mechanical properties like hardness and compression strength. It outlines testing methods such as Rockwell hardness and uniaxial compression tests, and mentions potential applications in space construction. The paper discusses methods for handling and testing melted lunar regolith simulant JSC-1A, including crucible removal, cutting, grinding, and compression testing. It reports density and magnetic property measurements for various samples. This paper investigates the mechanical properties of melted lunar regolith simulant JSC-1A, including compressive strength, hardness, and drilling performance. It highlights potential applications for in-situ resource utilization (ISRU) in space habitats and structural materials, while noting challenges like high melting temperat