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Additive Manufacturing and Spark Plasma Sintering of Lunar Regolith for Functionally Graded Materials
- Source :
- Spool. Journal of Architecture and the Built Environment, 8(2 #4), Spool, Vol 8, Iss 2 (2021)
- Publication Year :
- 2021
-
Abstract
- This study investigates the feasibility of in-situ manufacturing of a functionally graded metallic-regolith. To fabricate the gradient, digital light processing, an additive manufacturing technique, and spark plasma sintering were selected due to their compatibility with metallic-ceramic processing in a space environment. The chosen methods were first assessed for their ability to effectively consolidate regolith alone, before progressing to sintering regolith directly onto metallic substrates. Optimized processing conditions based on the sintering temperature, initial powder particle size, and different compositions of the lunar regolith powders were identified. Experiments have successfully proven the consolidation of lunar regolith simulants at 1050°C under 80 MPa with digital light processing and spark plasma sintering, while the metallic powders can be fully densified at relatively low temperatures and a pressure of 50 MPa with spark plasma sintering. Furthermore, the lunar regolith and Ti6Al4V gradient was proven to be the most promising combination. While the current study showed that it is feasible to manufacture a functionally graded metallic-regolith, further developments of a fully optimized method have the potential to produce tailored, high-performance materials in an off-earth manufacturing setting for the production of aerospace, robotic, or architectural components.<br />SPOOL, Vol. 8 No. 2: Cyber-physical Architecture #4
Details
- Language :
- English
- ISSN :
- 22150897
- Database :
- OpenAIRE
- Journal :
- Spool. Journal of Architecture and the Built Environment, 8(2 #4), Spool, Vol 8, Iss 2 (2021)
- Accession number :
- edsair.doi.dedup.....7eae38e106d3141ee6bc0bf350e29b97