Basic Study for a Korean Lunar Simulant (KLS-1) Development

B.-H. Ryu, Y. Baek, Y.-S. Kim, I. Chang | 2015 | Journal of the Korean Geotechnical Society

DOI 10.7843/kgs.2015.31.7.53

Review state

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Summary

(KLS-1) 53 31 7 2015 7 pp. 53 63 JOURNAL OF THE KOREAN GEOTECHNICAL SOCIETY Vol.31, No.7, July 2015 pp. 53 63 ISSN 1229-2427 (Print) ISSN 2288-646X (Online) http://dx.doi.org/10.7843/kgs.2015.31.7.53 (KLS-1) Basic Study for a Korean Lunar Simulant (KLS-1) Development 1 Ryu, Byung-Hyun 2 Baek, Yong 2 Kim, Young-Seok 3 Chang, Ilhan Abstract For the success of future missions to the Moon and other similar cosmic environments, understanding and utilization of the lunar regolith has become essential. However, due to the scarcity and unaffordability of real lunar regolith on Earth, a number of lunar regolith simulants (e.g., JSC-1; NASA) have been developed for experimental purposes. However, Korea does not have its own lunar regolith, even though the country is planning to actively pursue lunar and space missions in the 2020s. Thus, this study has been conducted to develop a Korean lunar simu The provided text is a detailed academic paper discussing the properties and characteristics of lunar soil simulants, particularly focusing on JSC-1, FJS-1, and KLS-1. It includes information on particle size distribution, specific gravity, and scanning electron microscope (SEM) images of these sim

Connected extracted records

These are the records this paper contributes to the simulant, returned sample, method, and property browsers.

Used simulants

JSC-1

JSC lunar regolith simulant

Needs review

72% confidencepage 1

Returned samples

No returned samples extracted yet.

Experiments and measurements

Particle Size Distribution Analysis

Physical Property Analysis

Needs review

Sieve Analysis, Laser Diffraction90% confidencepage 10

Preparation of simulants for lunar surface materials

preparation

Needs review

Preparation of simulants90% confidencepage 11

X-ray fluorescence

Chemical characterization | Benchmarking and comparison

Needs review

XRF74% confidencepage 1

Particle size distribution

Physical characterization | Benchmarking and comparison

Needs review

sieving, laser diffraction74% confidencepage 1

Measured properties

Particle Size Distribution

Fine to medium-grained, with a wide range of particle sizes.

Needs review

Physical Properties90% confidencepage 10

Chemical composition

characterized by XRF

Needs review

Composition70% confidencepage 1

Methods and applications

Methods

XRFsievinglaser diffractiontriaxial testingTEM / STEMSieve AnalysisPycnometryWater DisplacementScanning Electron Microscopy (SEM)Energy-Dispersive X-ray Spectroscopy (EDS)Discrete Element MethodSpecific Cutting ResistanceGeotechnical PropertiesDrop TestGrain Size DistributionPreparation of simulantsMineralogy-petroloyPhysical and Mechanical Properties

Applications

Benchmarking and comparisonMobility and excavationLunar exploration and simulationSpacecraft landing and excavation studiesGeotechnical engineering for lunar habitatsMaterial science research on regolith propertiesLunar rover performanceLunar landing gear testingLunar soil simulationPolymer concrete developmentLunar sample analysis