Summary

The paper describes the preparation and characterization of a Martian soil simulant named NEU Mars-1. It details the composition, thermal properties, and dielectric characteristics of the simulant, which is intended for in-situ resource utilization studies. This paper describes the development and evaluation of a new Martian soil simulant, NEU Mars-1, based on Mars landing data and existing simulants like JSC Mars-1 and JMSS-1. The simulant uses porous basalt from Inner Mongolia and is characterized for particle size, chemical composition, phase, micro-topography, thermal stability, dielectric constant, and Mossbauer spectrum. Other simulants like ES-X, SSC, MMS, MGS-1, UC Mars-1, KMS-1, and JMSS-1 are referenced for their properties and applications. The paper describes the preparation and characterization of NEU Mars-1, a Martian soil simulant derived from Chahar basalt. It includes chemical composition analysis, phase analysis, particle size distribution, and thermal stability testing. The simulant is compared with other Martian soil simulants and real Martian soil data. The paper describes the preparation and characterization of NEU Mars-1, a Martian soil simulant. It details i

Methods and applications