1–20 of 102 hits
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    Use of extraterrestrial resources for human space missions to moon or mars

    Rapp, Donald | TIBKAT | 2013
    Keywords: Space industrialization , Space mining , Mars (Planet) , Moon

    Space Resources and Mining: Current Objectives, Plans, and Missions

    Sanders, Gerald B. | NTRS | 2018
    the use of off-planet resources, in this case from the Moon, should be a critical architectural consideration for human space exploration to ...
    Publisher: NASA National Aeronautics and Space Administration
    Keywords: Space Processing

    Refueling Spacecraft in LEO Using Propellants Derived from the Moon or Asteroids

    Rapp, Donald | Springer Verlag | 2018
    2 from the Moon, the required mass of Mars-bound vehicles to be delivered from Earth to LEO would be reduced to about 40% of the ...
    Keywords: Mineral Resources

    Space Resource Utilization: Near-Term Missions and Long-Term Plans for Human Exploration

    G. B. Sanders | NTIS | 2015
    , extract, and use resources in space instead of bringing everything from Earth. To reduce the development and implementation costs for space ...
    Publisher: NASA Johnson Space Center
    Keywords: Extraterrestrial Exploration , Extraterrestrial resources , Space missions , Moon , Mars surface , Space commercialization , Space exploration

    Mars ISRU

    Rapp, Donald | Springer Verlag | 2018
    Abstract Portree (2001) wrote a superb history of mission planning for sending humans to Mars. ...
    Keywords: Mineral Resources

    A Framework for Extraterrestrial Environmental Assessment

    Kramer, William R. | Elsevier | 2020
    in a variety of ways. Some impacts may foreclose future options for use of the area, hinder sustained access to resources, impede long-term ...
    Keywords: Extraterrestrial , Space mining , Outer space development , Outer Space Treaty , Moon Agreement

    High Leverage Space Transportation System Technologies for Human Exploration Missions to the Moon and Beyond

    Borowski, Stanley K. / Dudzinski, Leonard A. | NTRS | 1996
    The feasibility of returning humans to the Moon by 2004, the 35th anniversary of the Apollo 11 landing, is examined assuming the use of ...
    Publisher: NASA National Aeronautics and Space Administration
    Keywords: Space Transportation

    High Leverage Space Transportation System Technologies for Human Exploration Missions to the Moon and Beyond

    S. K. Borowski / L. A. Dudzinski | NTIS | 1996
    The feasibility of returning humans to the Moon by 2004, the 35th anniversary of the Apollo 11 landing, is examined assuming the use of ...
    Publisher: National Aeronautics and Space Administration, Cleveland, OH. Lewis Research Center
    Keywords: Extraterrestrial Exploration , Space shuttles , Space transportation system , Mars exploration

    Artemis Deep Space Habitation: Enabling a Sustained Human Presence on the Moon and Beyond

    P. Kessler / T. Prater / T. Nickens et al. | NTIS | 2022
    crewed presence on the surface of the Moon and eventual human missions to Mars. The first launch of the Space Launch System and Orion crew ...
    Publisher: National Aeronautics and Space Administration, Washington, DC.
    Keywords: Extraterrestrial Exploration

    In-Situ Resource Utilization for the Moon, Mars and Beyond.

    S. Trigwell | NTIS | 2010
    For any future manned exploration to the moon, Mars, or beyond, there is a significant need to reduce the cost and logistics of ...
    Publisher: National Aeronautics and Space Administration, Cocoa Beach, FL. John F. Kennedy Space Center
    Keywords: Space Technology , Moon , Extraterrestrial resources , Manned mars missions , Lunar resources , Space logistics , Mars surface

    Mars Atmosphere Resource Verification INsitu (MARVIN) - In Situ Resource Demonstration for the Mars 2020 Mission

    G. B. Sanders / K. Araghi / K. M. Ess et al. | NTIS | 2014
    substantial benefits for future robotic and human exploration. In particular, the ability to produce oxygen on Mars for use in propulsion, life ...
    Publisher: National Aeronautics and Space Administration, Houston, TX. Lyndon B. Johnson Space Center.
    Keywords: Extraterrestrial Exploration , Mars missions , Mars atmosphere , Mars surface , Sample return missions

    Processing of Space Resources to Enable the Vision for Space Exploration

    Curreri, Peter A. | NTRS | 2006
    process materials on the Moon and beyond to enable safe and affordable human exploration. Processing space resources was first popularized (O ...
    Publisher: NASA National Aeronautics and Space Administration

    Groundbreaking Mars Sample Return for Science and Human Exploration

    B. Cohen / D. Draper / D. Eppler et al. | NTIS | 2012
    , assessment of resources, and demonstration of precision landing (2). This mission was canceled in 2006 due to funding shortfalls. For the Moon ...
    Publisher: National Aeronautics and Space Administration, Huntsville, AL. George C. Marshall Space Flight Center
    Keywords: Extraterrestrial Exploration , Mars sample return missions , Manned mars missions , Manned space flight , Mars exploration

    Mechanical properties of meteoritic Fe–Ni alloys for in-situ extraterrestrial structures

    Ahles, Aaron A. / Emery, Jonathan D. / Dunand, David C. | Elsevier | 2021
    and Mars is the use of in-situ resources to create pressurized, human-rated habitats with low mass (i.e., high tensile ...
    Keywords: Space exploration , Extraterrestrial colonization

    Why the NASA Approach Will Likely Fail to Send Humans to Mars for Many Decades to Come

    Rapp, Donald | Springer Verlag | 2015
    Abstract Mars missions are fundamentally different from lunar missions. Use of the Moon would ...
    Keywords: International Space Station , Future Mission , Extraterrestrial Physics, Space Sciences

    New Approaches for Human Deep-Space Exploration

    Dunham, David W. / Farquhar, Robert W. / Eismont, Natan et al. | Springer Verlag | 2013
    Abstract We are undertaking a Russian-American study of orbital options to extend human exploration beyond the ...
    Keywords: Human space exploration , Mars , Extraterrestrial Physics, Space Sciences

    Why Explore Mars?

    Rapp, Donald | Springer Verlag | 2023
    rationale for exploration of the Moon or Mars is based on three themes: science, inspiration and resources. There certainly are significant ...
    Keywords: Space Sciences (including Extraterrestrial Physics, Space Exploration and Astronautics)

    New Space Transportation Architectures Based on the Use of Planetary Resources

    Ruiz, Begoña / Blair, Brad R. / Diaz, Javier et al. | SAE Technical Papers | 2004
    integrated on Earth. Missions to low Earth orbit, Geosynchronous orbit, the Moon, Mars, Jupiter, etc., all are launched directly from Earth. Missions ...
    Publisher: Society of Automotive Engineers , SAE International

    Why the NASA Approach Will Likely Fail to Send Humans to Mars for Many Decades to Come

    Rapp, Donald | Springer Verlag | 2023

    Mars missions are fundamentally different from lunar missions. Use of the Moon would provide some risk reduction

     ...
    Keywords: Space Sciences (including Extraterrestrial Physics, Space Exploration and Astronautics)