Influence of Ductility on the Performance of Lunar Habitat Structures Under Recurrent Disturbances

Author:

Majlesi Arsalan1,Behjat Amir2,Shahriar Adnan,Khodadadi Koodiani Hamid,Dyke Shirley J.ORCID,Ramirez Julio,Montoya Arturo1ORCID

Affiliation:

1. The University of Texas at San Antonio, San Antonio, Texas 78249

2. Purdue University, West Lafayette, Indiana 47906

Abstract

This research examines how ductility affects the durability of lunar surface structures against recurring disturbances like moonquakes, micrometeorite impacts, and thermal cycles over an extended period. The structural performance at various levels of ductility was determined by adjusting material parameters and the thickness of a reference multilayered dome structure. Moonquake and micrometeorite impact-induced lateral displacements were estimated using a reduced-order model under a control-oriented dynamic computational modeling framework. The study considered the degradation of the metallic dome’s strength properties over time due to thermal cycles. Fragility curves were generated by assessing the likelihood of reaching three predefined damage levels as a result of multiple hazards. Additionally, a discounted cash flow analysis was conducted to incorporate a financial aspect into the performance comparison. The findings revealed that structures with sufficient ductility capacity have a lower probability of sustaining severe damage or collapsing within a shorter time frame. Hence, having ductile structures in lunar environments is advantageous as it allows the postponement of maintenance and repair actions, thereby conserving scarce resources for more urgent tasks. Moreover, the financial analysis demonstrated that lunar habitats with higher ductile capacities result in larger net present values, offering a higher return on the initial investment.

Funder

Space Technology Mission Directorate

Publisher

American Institute of Aeronautics and Astronautics (AIAA)

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