Add to ORKGA paper describes a method of using microwave heating experiments on lunar simulants to determine the mechanism that causes lunar regolith to be such an excellent microwave absorber. The experiments initially compared the effects of sharp particle edges to round particle edges on the heating curves. For most compositions, sharp particle edged samples were more effective in being heated by microwaves than round particle edged materials. However, the experiments also showed an unexpected effect for both types of particles. Upon heating the sample surface above 400 C, the sample experienced some sort of internal structure change that caused it to heat much more efficiently. This enhancement may be associated with the unique microwave volumetri...
Extraction of mission consumable resources such as water and oxygen from the planetary environment p...
When high resolution measurements of the phase variation of the lunar disk center brightness tempera...
Nearly 50% of the lunar surface is oxygen, present as oxides in silicate rocks and soil. Methods for...
The Space Instrumentation Group at The Open University is investigating microwave sintering of lunar...
This slide presentation reviews the use of microwaves to heat lunar soil in order to obtain water. T...
The objective is to develop a better understanding of the thermal shock properties of lunar regolith...
A paper describes a 1-K-pot that works with a commercial pulse tube cooler for astrophysics instrume...
Water ice deposits existing in Lunar polar regions of permanent shadow at temperatures as low as 30 ...
The future of human expansion to our nearest neighbour, the Moon and beyond, relies on the utilisati...
Sustainable exploration of the Moon could benefit from a microwave heating-based 3D Printing technol...
Microwave heating of nonmetallic inorganic material has been of interest for many years. Von Hippel ...
For a sustainable human presence on the Moon, it is critical to develop technologies that could util...
A document discusses WIEVRs, a means to extract water ice more efficiently than previous approaches....
This viewgraph presentation reviews in this Roadmap for Developing a Lunar Microwave Facility an app...
A report proposes the development of a system to collect volatile elements and compounds from Lunar ...
Extraction of mission consumable resources such as water and oxygen from the planetary environment p...
When high resolution measurements of the phase variation of the lunar disk center brightness tempera...
Nearly 50% of the lunar surface is oxygen, present as oxides in silicate rocks and soil. Methods for...
The Space Instrumentation Group at The Open University is investigating microwave sintering of lunar...
This slide presentation reviews the use of microwaves to heat lunar soil in order to obtain water. T...
The objective is to develop a better understanding of the thermal shock properties of lunar regolith...
A paper describes a 1-K-pot that works with a commercial pulse tube cooler for astrophysics instrume...
Water ice deposits existing in Lunar polar regions of permanent shadow at temperatures as low as 30 ...
The future of human expansion to our nearest neighbour, the Moon and beyond, relies on the utilisati...
Sustainable exploration of the Moon could benefit from a microwave heating-based 3D Printing technol...
Microwave heating of nonmetallic inorganic material has been of interest for many years. Von Hippel ...
For a sustainable human presence on the Moon, it is critical to develop technologies that could util...
A document discusses WIEVRs, a means to extract water ice more efficiently than previous approaches....
This viewgraph presentation reviews in this Roadmap for Developing a Lunar Microwave Facility an app...
A report proposes the development of a system to collect volatile elements and compounds from Lunar ...
Extraction of mission consumable resources such as water and oxygen from the planetary environment p...
When high resolution measurements of the phase variation of the lunar disk center brightness tempera...
Nearly 50% of the lunar surface is oxygen, present as oxides in silicate rocks and soil. Methods for...