Date of Award

2011-01-01

Degree Name

Master of Science

Department

Mechanical Engineering

Advisor(s)

Evgeny Shafirovich

Abstract

Future settlements on the Moon will require that strong, cost-effective structural materials be developed in whole or in part from locally available resources. Such materials can be created in-situ from the lunar regolith using self-propagating high-temperature synthesis (SHS). By mixing the lunar regolith with metal additives, such as aluminum or magnesium, a combustible mixture is formed which, when ignited, can reach temperatures high enough to allow combustion to be self-sustaining, sintering the lunar regolith without further energy input and without the need for atmospheric oxygen. The resulting products may be strong enough for some structural applications, such as radiation shielding, high-temperature thermal insulation, launch pads, and thermal wadis. Thermodynamic calculations and experiments were performed using the lunar simulant JSC-1A mixed with magnesium and ignited with nickel-chromium wire. The present investigation is focused on the predictions of thermodynamic calculations for magnesium mixtures with an emphasis on predicted compositions, the effects of milling on simulant characteristics and propagation of the combustion wave, the effect of gravity upon combustion products, the minimization of magnesium content in the reaction, and unstable combustion phenomena encountered during experiments.

Language

en

Provenance

Received from ProQuest

File Size

78 pages

File Format

application/pdf

Rights Holder

Christopher White

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