Magnetic Separation of Lunar Regolith as its Beneficiation for Construction Effort on the Moon

被引:0
作者
Kobaka, Janusz [1 ]
Katzer, Jacek [1 ]
Seweryn, Karol [2 ]
机构
[1] Univ Warmia & Mazury, Fac Geoengn, Olsztyn, Poland
[2] Polskiej Akad Nauk CBK PAN, Ctr Badań Kosmicznych, Warsaw, Poland
来源
ARTIFICIAL SATELLITES-JOURNAL OF PLANETARY GEODESY | 2023年 / 58卷 / S1期
关键词
regolith; beneficiation; magnetic separation; building material; the Moon; SULFUR CONCRETE; SOIL;
D O I
10.2478/arsa-2023-0023
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
A concept of magnetic separation of regolith for production of lunar aggregate is presented in the paper. Future construction effort on the Moon will require significant amounts of concrete-like composites. The authors formulate a hypothesis that magnetic separation of regolith would be a very efficient beneficiation procedure solving multiple civil engineering problems associated with properties of raw lunar soil. For the research program, 10 lunar soil simulants were used. The magnetic separation was feasible in majority of cases. Acquired lunar aggregate would be useful for both concrete-like composite production and covering the surface of a habitat. The aims of future research are pointed out in the paper.
引用
收藏
页码:203 / 213
页数:11
相关论文
共 35 条
[1]   Experimental simulation of tensile behavior of lunar soil simulant JS']JSC-1 [J].
Arslan, Haydar ;
Sture, Stein ;
Batiste, Susan .
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2008, 478 (1-2) :201-207
[2]   RESEARCH OF FORMED LUNAR REGHOLIT ANALOG AGK-2010 [J].
Bednarz, Stanislaw ;
Rzyczniak, Miroslaw ;
Gonet, Andrzej ;
Seweryn, Karol .
ARCHIVES OF MINING SCIENCES, 2013, 58 (02) :551-556
[3]   Engineering of lunar bases [J].
Benaroya, Haym ;
Bemold, Leonhard .
ACTA ASTRONAUTICA, 2008, 62 (4-5) :277-299
[4]   In situ multi-frequency measurements of magnetic susceptibility as an indicator of planetary regolith maturity [J].
Bentley, Mark S. ;
Ball, Andrew J. ;
Potter, David K. ;
Wright, Ian P. ;
Zarnecki, John C. .
PLANETARY AND SPACE SCIENCE, 2009, 57 (12) :1491-1499
[5]   Building components for an outpost on the Lunar soil by means of a novel 3D printing technology [J].
Cesaretti, Giovanni ;
Dini, Enrico ;
De Kestelier, Xavier ;
Colla, Valentina ;
Pambaguian, Laurent .
ACTA ASTRONAUTICA, 2014, 93 :430-450
[6]   In situ resource utilization of structural material from planetary regolith [J].
Ferrone, K. L. ;
Taylor, A. B. ;
Helvajian, H. .
ADVANCES IN SPACE RESEARCH, 2022, 69 (05) :2268-2282
[7]   Integrity of sulfur concrete subjected to simulated lunar temperature cycles [J].
Grugel, Richard N. .
ADVANCES IN SPACE RESEARCH, 2012, 50 (09) :1294-1299
[8]  
Heiken G. H., 1990, P 20 LUNAR PLANETARY
[9]   Apollo sample 70051 and high- and low-Ti lunar soil simulants MLS-1A and JS']JSC-1A: Implications for future lunar exploration [J].
Hill, Eddy ;
Mellin, Michael J. ;
Deane, Bill ;
Liu, Yang ;
Taylor, Lawrence A. .
JOURNAL OF GEOPHYSICAL RESEARCH-PLANETS, 2007, 112 (E2)
[10]   Parametric review of existing regolith excavation techniques for lunar In Situ Resource Utilisation (ISRU) and recommendations for future excavation experiments [J].
Just, G. H. ;
Smith, K. ;
Joy, K. H. ;
Roya, M. J. .
PLANETARY AND SPACE SCIENCE, 2020, 180
1234