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Microstructural, mechanical, and thermal properties of microwave-sintered KLS-1 lunar regolith simulant

Young‐Jae Kim, Byung Hyun Ryu, Hyunwoo Jin, Jangguen Lee, Hyu‐Soung Shin

2021Ceramics International86 citationsDOIOpen Access PDF

Abstract

KLS-1 Lunar regolith simulant was microwave sintered to explore its potential applicability in future lunar construction. The effects of sintering temperature on linear shrinkage, density, porosity, and microstructural, mechanical, and thermal properties were investigated. As the sintering temperature increased, linear shrinkage and density increased and porosity decreased. Structural evolution in the sintered samples was characterized by scanning electron microscopy and X-ray diffraction. Unconfined compressive strength testing showed that mechanical strength increased significantly with increasing sintering temperature, with 1120 °C giving the highest strength of 37.0 ± 4.8 MPa. The sintered samples exhibited a coefficient of thermal expansion of approximately 5 × 10−6 °C−1, which was well-maintained even after cyclic temperature stress between −100 and 200 °C. Therefore, this microwave processing appears promising for the fabrication of building material with sufficient mechanical strength and thermal durability for lunar construction.

Topics & Concepts

Materials scienceSinteringRegolithCompressive strengthPorosityThermal expansionComposite materialScanning electron microscopeShrinkageMicrowaveFlexural strengthThermalPhysicsQuantum mechanicsAstrobiologyMeteorologyPlanetary Science and ExplorationAdvanced ceramic materials synthesisAdditive Manufacturing and 3D Printing Technologies
Microstructural, mechanical, and thermal properties of microwave-sintered KLS-1 lunar regolith simulant | Litcius