Tensile Strength and Porosity of Regolith-Based Cement with Human Hair
Jan 1, 2024·,,,,
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Tarikuzzaman, M.
Shank, A. M.
Agan, E. G.
Sagar, V.
Lynam, J. G.
Stephen Timothy Gordon II
Alam, S.
Abstract
Sustainable structures are an important area of research, particularly for anticipated extended human presence on the Moon or Mars. Persistent human presence on the Moon will require building materials that are already present at the site to construct bases. The high cost associated with reinforcing metal (rebar) in mission payloads necessitates the exploration of alternative reinforcement methods for sustained lunar bases. Human hair is strong in tensile strength and will become available in any long-term mission. By using otherwise wasted hair instead of heavy metal, mission payloads and costs could be lowered. Concrete workability, compressive strength, and porosity were measured for a series of different cement compositions. These compositions consisted of combinations of Ordinary Portland Cement (OPC), lunar regolith, deionized (DI) water and human hair. Increased workability and porosity were found for increasing hair concentrations. Compressive strength slightly decreased with increased hair concentration.
Type
Publication
Frontiers in Space Technologies, 5
Status
Peer-reviewed
Authors
Ph.D. Engineer & Instructor of Record — Materials, Electrical & Civil Engineering
Stephen Timothy Gordon II is a Ph.D. engineer with interdisciplinary expertise across
electrical engineering, materials science, and civil engineering. His research develops
rapid electrical (ohmic) curing and additive manufacturing of fly-ash-based geopolymers,
and the electrical, dielectric, and inductive characterization of sustainable construction
materials. He has taught undergraduate engineering as Instructor of Record across seven
terms (300+ students) and is author or co-author of ten scholarly works — first author on two.