An Overview for Modern Energy-Efficient Solutions for Lunar and Martian Habitats Made Based on Geopolymers Composites and 3D Printing Technology (2022-12)¶
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Journal Article - Energies, Vol. 15, Iss. 24
Abstract
Space missions will require the capability to build structures on site using local resources. Before 2040, NASA and the European Space Agency want to ensure the possibility of a permanent human residence in shelters on the Moon or Mars. The article analyzed the state of the art in this area based on the literature research. It shows innovative and energy efficient solutions for manufacturing the lunar and Martian shelters based on geopolymer composites. Firstly, the possible materials solutions, with particular attention to the geopolymer composites, are discussed. Next, the previous research is presented, including work based on different kinds of simulants of lunar and Martian regolith. Then, a different approach for manufacturing technologies is presented and the advantages of 3D printing technology are clarified. Eventually, the challenges for further projects are discussed, including energy and cost efficiency problems.
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9 References
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Building Components for an Outpost on the Lunar Soil by Means of a Novel 3D Printing Technology - Gebhard Lukas, Burger Joris, Mata-Falcón Jaime, Lloret-Fritschi Ena et al. (2022-03)
Towards Efficient Concrete Structures with Ultra-Thin 3D Printed Formwork:
Exploring Reinforcement-Strategies and Optimization - Han Yilong, Yang Zhihan, Ding Tao, Xiao Jianzhuang (2020-08)
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Investigation of the Rheology and Strength of Geopolymer Mixtures for Extrusion-Based 3D Printing - Raza Muhammad, Zhong Ray (2022-08)
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Review of Binder-Jetting 3D Printing in the Construction Industry - Yuan Qiang, Gao Chao, Huang Tingjie, Zuo Shenghao et al. (2022-03)
Factors Influencing the Properties of Extrusion-Based 3D Printed Alkali-Activated Fly-Ash-Slag Mortar - Zhong Hui, Zhang Mingzhong (2022-02)
3D Printing Geopolymers:
A Review
4 Citations
- Rudziewicz Magdalena, Maroszek Marcin, Hebda Marek (2025-09)
Comparison of Porosity and Thermal Conductivity of Concrete and Alkali-Activated Hybrid Binders in 3D-Printed Fiber-Reinforced Foamed Composites - Becher Anton, Gądek Szymon, Korniejenko Kinga (2025-05)
3D Printing with Geopolymers and Its Applications - Aghaee Kamran, Li Linfei, Roshan Alireza, Namakiaraghi Parsa (2024-08)
Additive Manufacturing Evolution in Construction:
From Individual Terrestrial to Collective, Aerial, and Extraterrestrial Applications - Korniejenko Kinga, Gądek Szymon, Dynowski Piotr, Tran Doan et al. (2024-02)
Additive Manufacturing in Underwater Applications
BibTeX
@article{korn_setl_kozu.2022.AOfMEESfLaMHMBoGCa3PT,
author = "Kinga Korniejenko and Kinga Setlak (nee Pławecka) and Barbara Kozub",
title = "An Overview for Modern Energy-Efficient Solutions for Lunar and Martian Habitats Made Based on Geopolymers Composites and 3D Printing Technology",
doi = "10.3390/en15249322",
year = "2022",
journal = "Energies",
volume = "15",
number = "24",
}
Formatted Citation
K. Korniejenko, K. S. (nee Pławecka) and B. Kozub, “An Overview for Modern Energy-Efficient Solutions for Lunar and Martian Habitats Made Based on Geopolymers Composites and 3D Printing Technology”, Energies, vol. 15, no. 24, 2022, doi: 10.3390/en15249322.
Korniejenko, Kinga, Kinga Setlak (nee Pławecka), and Barbara Kozub. “An Overview for Modern Energy-Efficient Solutions for Lunar and Martian Habitats Made Based on Geopolymers Composites and 3D Printing Technology”. Energies 15, no. 24 (2022). https://doi.org/10.3390/en15249322.