New research examines different methods for lunar regolith construction, highlighting the categorization and evaluation of these techniques to optimize lunar building efficiency. It information a strategic plan for developing lunar facilities across 4 stages, from labs to self-reliant habitats.Scientists conducted a quantitative evaluation of strategies for strengthening and forming lunar regolith.As lunar objectives shift from exploration to building and utilizing structures, building on the moon using local products becomes essential. Furthermore, the proposed lunar environment design based on regolith bags is a practical reference for future research.Reference: “Lunar In Situ Large-Scale Construction: Quantitative Evaluation of Regolith Solidification Techniques” by Charun Bao, Daobo Zhang, Qinyu Wang, Yifei Cui and Peng Feng, 24 March 2024, Engineering.DOI: 10.1016/ j.eng.2024.03.004.
New research study examines different strategies for lunar regolith building and construction, highlighting the classification and evaluation of these methods to enhance lunar construction effectiveness. It details a strategic plan for establishing lunar infrastructure throughout four stages, from labs to self-sufficient habitats.Scientists carried out a quantitative examination of strategies for strengthening and forming lunar regolith.As lunar missions shift from exploration to building and using structures, building on the moon utilizing local products ends up being necessary. Based on quantitative assessments, they proposed regolith bag technology as an option for lunar base construction.By leveraging the insights derived from this extensive assessment, scientists can make informed choices on product preparation strategies, paving the method for optimized lunar building endeavors. Furthermore, the proposed lunar habitat style based on regolith bags is a practical referral for future research.Reference: “Lunar In Situ Large-Scale Construction: Quantitative Evaluation of Regolith Solidification Techniques” by Charun Bao, Daobo Zhang, Qinyu Wang, Yifei Cui and Peng Feng, 24 March 2024, Engineering.DOI: 10.1016/ j.eng.2024.03.004.