Add to ORKGThe lunar regolith is very different from many naturally occurring material on Earth because it forms in the unique, impact-dominated environment of the lunar surface. Lunar regolith is composed of five basic particle types: mineral fragments, pristine crystalline rock fragments, breccia fragments, glasses of various kinds, and agglutinates (glass-bonded aggregates). Agglutinates are abundant in the lunar regolith, especially in mature regoliths where they can be the dominant component.This presentation will discuss the technical feasibility of manufacturing-simulated agglutinate particles that match many of the unique properties of lunar agglutinates
There is a need for a stable, efficient, and cost-effective option of a terrestrial lunar regolith s...
There is a need for a stable, efficient, and cost-effective option of a terrestrial lunar regolith s...
The European Astronaut Centre (EAC) is currently constructing the European Lunar Exploration Laborat...
As space faring nations consider manned and unmanned missions to the Moon, there is a growing need t...
Lunar regolith simulant production is absolutely critical to returning man to the Moon. Regolith sim...
Introduction: As NASA turns its exploration ambitions towards the Moon once again, the research and ...
Due to lack of "real" lunar soil or even lunar simulant, it is difficult to characterize the interac...
As NASA turns its exploration ambitions towards the Moon once again, the research and development of...
Lunar simulants are terrestrial materials that mimic aspects of lunar regolith for testing of techno...
As part of a collaborative agreement between the U.S, Geological Survey (USGS) and NASA's Marshall S...
This work explores the use of a lunar regolith simulant as feedstock for the direct ink writing addi...
The next steps for the expansion of the human presence in the solar system will be taken on the Moon...
The European Astronaut Centre (EAC) is currently constructing the European Lunar Exploration Laborat...
Electrostatic beneficiation of lunar regolith is a method allowing refinement of specific minerals i...
There is a need for a stable, efficient, and cost-effective option of a terrestrial lunar regolith s...
There is a need for a stable, efficient, and cost-effective option of a terrestrial lunar regolith s...
There is a need for a stable, efficient, and cost-effective option of a terrestrial lunar regolith s...
The European Astronaut Centre (EAC) is currently constructing the European Lunar Exploration Laborat...
As space faring nations consider manned and unmanned missions to the Moon, there is a growing need t...
Lunar regolith simulant production is absolutely critical to returning man to the Moon. Regolith sim...
Introduction: As NASA turns its exploration ambitions towards the Moon once again, the research and ...
Due to lack of "real" lunar soil or even lunar simulant, it is difficult to characterize the interac...
As NASA turns its exploration ambitions towards the Moon once again, the research and development of...
Lunar simulants are terrestrial materials that mimic aspects of lunar regolith for testing of techno...
As part of a collaborative agreement between the U.S, Geological Survey (USGS) and NASA's Marshall S...
This work explores the use of a lunar regolith simulant as feedstock for the direct ink writing addi...
The next steps for the expansion of the human presence in the solar system will be taken on the Moon...
The European Astronaut Centre (EAC) is currently constructing the European Lunar Exploration Laborat...
Electrostatic beneficiation of lunar regolith is a method allowing refinement of specific minerals i...
There is a need for a stable, efficient, and cost-effective option of a terrestrial lunar regolith s...
There is a need for a stable, efficient, and cost-effective option of a terrestrial lunar regolith s...
There is a need for a stable, efficient, and cost-effective option of a terrestrial lunar regolith s...
The European Astronaut Centre (EAC) is currently constructing the European Lunar Exploration Laborat...