In-Situ Resource Utilization: Investigation of Melted Lunar Regolith Simulant JSC-1A

Authors

  • Matthew Kallerud Department of Mechanical Engineering; Milwaukee School of Engineering, Milwaukee, WI
  • Brian Nguyen Department of Mechanical Engineering; Milwaukee School of Engineering, Milwaukee, WI
  • Timothy Paladin Department of Mechanical Engineering; Milwaukee School of Engineering, Milwaukee, WI
  • Anthony Wilson Department of Mechanical Engineering; Milwaukee School of Engineering, Milwaukee, WI

DOI:

https://doi.org/10.17307/wsc.v0i0.90

Abstract

This study focused on the importance of in-situ resource utilization in the pursuit of space exploration. Experimentation focused on lunar regolith simulant JSC-1A, of which the mechanical properties of melted JSC-1A were to be explored. Specific properties that were tested included compression strength, hardness, density, magnetic properties, and the capability to drill and tap melted regolith. Results showed the compressive strength being greater than that of granite, higher densities in melted regolith versus settled JSC-1A powder, as well as inconclusive hardness and magnetic property testing. 

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How to Cite

Kallerud, M., Nguyen, B., Paladin, T., & Wilson, A. (2011). In-Situ Resource Utilization: Investigation of Melted Lunar Regolith Simulant JSC-1A. Proceedings of the Wisconsin Space Conference. https://doi.org/10.17307/wsc.v0i0.90

Issue

Section

Physics and Engineering