WNMS: A New Basaltic Simulant of Mars Regolith

Abdur Rahim (), Umair Majeed, Muhammad Irfan Zubair and Muhammad Shahzad
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Abdur Rahim: Department of Transportation Engineering and Management, University of Engineering & Technology, Lahore 54890, Pakistan
Umair Majeed: Geological Survey of Pakistan, Karachi 75290, Pakistan
Muhammad Irfan Zubair: Geological Survey of Pakistan, Lahore 54782, Pakistan
Muhammad Shahzad: Department of Mining Engineering, University of Engineering & Technology, Lahore 54890, Pakistan

Sustainability, 2023, vol. 15, issue 18, 1-16

Abstract: The use of planetary regolith can be explored via the utilization of simulants. The existing Martian simulants have differences due to varying source materials and design parameters. Additional simulants are needed because the few available simulants do not replicate the compositional diversity of Martian regolith. This study discusses the development of a low-cost construction simulant of Mars. The area of Winder Nai in Pakistan was selected for field sampling of basalt because of local availability and easy access. The dust was produced from rock samples through mechanical crushing and grinding. The physical properties, composition, mineralogy, and surface morphology were evaluated via geotechnical tests, Energy Dispersive X-ray (EDX) spectroscopy, X-ray Diffraction (XRD), and Scanning Electron Microscopy (SEM), respectively. The designed simulant has a well-graded particle size distribution with a particle density and bulk density of 2.58 g/cm 3 and 1.16 g/cm 3 , respectively. The elemental composition of Winder Nai Mars Simulant (WNMS) is within ±5 wt% of the Rocknest and the average Martian regolith composition except for SO 3 . For SiO 2 , Al 2 O 3 , and Fe 2 O 3 , WNMS has a good match with the Martian regolith. The content of CaO and TiO 2 in WNMS is higher than, and content of MgO is lower than, the average Martian values. The rock can be classified as basalt based on the Total Alkali Silica (TAS) diagram. XRD spectrum indicates the occurrence of plagioclase and pyroxene as the main signature minerals of basalt. The particle morphology of WNMS is angular to subangular, and the simulant indicates the presence of 3.8 wt% highly paramagnetic particles. The volatile loss is 0.25 wt% at 100 °C, 1.73 wt% at 500 °C, and 3.05 wt% at 950 °C. The composition of WNMS, basaltic mineralogy, morphology, magnetic properties, and volatile content are comparable with MMS-2 and a few other simulants.

Keywords: basalt; construction; Mars; regolith; simulant (search for similar items in EconPapers)
JEL-codes: O13 Q Q0 Q2 Q3 Q5 Q56 (search for similar items in EconPapers)
Date: 2023
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