Synonyme wurden verwendet für: Chemical technology technology
Suche ohne Synonyme: keywords:(Chemical technology)

61–80 von 252 Ergebnissen
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    Technology Area Roadmap for In Space Propulsion Technologies

    L. Johnson / M. Meyer / B. Palaszewski et al. | NTIS | 2011
    Schlagwörter: Space Technology , Chemical propulsion , Technology utilization

      Technology Area Roadmap for In Space Propulsion Technologies

      L. Johnson / M. Meyer / D. Coote et al. | NTIS | 2010
      Schlagwörter: Space Technology , Technology assessment , Chemical propulsion

    In-Space Propulsion Technologies for Robotic Exploration of the Solar System

    L. Johnson / R. A. Meyer / K. Frame | NTIS | 2006
    Schlagwörter: Space Technology , Technology utilization , Chemical propulsion

    Prioritization Methodology for Chemical Replacement

    W. Cruit / S. Schutzenhofer / B. Goldberg et al. | NTIS | 1993
    Schlagwörter: Space Technology , Chemical engineering

    Publications of the Jet Propulsion Laboratory, July 1961 Through June 1962

    S. L. Kresser / R. J. Sippel | NTIS | 1962
    Schlagwörter: Chemical engineering , Chemical

    NASA's In-Space Propulsion Technology Program: Overview and Update

    L. Johnson / L. Alexander / R. M. Baggett et al. | NTIS | 2004
    Schlagwörter: Space Technology , Technology assessment , Chemical propulsion

    Solar Electric Propulsion Concepts for Human Space Exploration

    C. R. Mercer / M. L. Mcguire / S. R. Oleson et al. | NTIS | 2016
    Schlagwörter: Space Technology , Chemical propulsion

    Rocket Propulsion (RP) 21 Steering Committee Meeting - NASA Spacecraft Propulsion Update

    M. Klem | NTIS | 2016
    Schlagwörter: Space Technology , Chemical propulsion

    Application of Solar-Electric Propulsion to Robotic and Human Missions in Near-Earth Space

    G. R. Woodcock / J. Dankanich | NTIS | 2011
    Schlagwörter: Space Technology , Chemical propulsion

    Planned Future Missions Human Exploration of the Solar System by 2100

    R. J. Litchford | NTIS | 2017
    Schlagwörter: Space Technology , Chemical propulsion

    Past and Present Large Solid Rocket Motor Test Capabilities

    R. R. Kowalski / D. B. Owen | NTIS | 2011
    Schlagwörter: Space Technology , Chemical propulsion

    Pulsed Inductive Thruster Using Martian Atmosphere as Propellant

    K. A. Polzin | NTIS | 2012
    Schlagwörter: Space Technology , Chemical fuels

    NASA Aeronautics Propulsion Overview

    B. Esker | NTIS | 2012
    Schlagwörter: Chemical propulsion , Technology transfer

    Chemical and Solar Electric Propulsion Systems Analyses for Mars Sample Return Missions

    B. B. Donahue / S. E. Green / V. L. Coverstone et al. | NTIS | 2004
    Schlagwörter: Space Technology , Chemical propulsion , Technology assessment

    A Purely Chemical HBr Laser

    S. J. Arnold / K. D. Foster | NTIS | 1978
    Schlagwörter: Chemical reactions , Chemical lasers , Foreign Technology

    Combined Solar Electric and Storable Chemical Propulsion Vehicle for Piloted Mars Missions

    C. R. Mercer / S. R. Oleson / B. G. Drake | NTIS | 2014
    Schlagwörter: Space Technology , Chemical propulsion

      Combined Solar Electric and Storable Chemical Propulsion Vehicle for Piloted Mars Missions

      C. R. Mercer / S. R. Oleson / B. Drake | NTIS | 2013
      Schlagwörter: Space Technology , Chemical propulsion

    Beryllium Fabrication Methods Development Program - Metal Removal

    NTIS | 1965
    Schlagwörter: Chemical , Technique

    Solar System Exploration Augmented by In-Situ Resource Utilization: Human Mercury and Saturn Exploration

    B. Palaszewski | NTIS | 2015
    Schlagwörter: Space Technology , Chemical propulsion , Technology utilization

    North Korean Ballistic Missile Program

    D. A. Pinkston | NTIS | 2008
    Schlagwörter: Missile Technology , Chemical, Biological, & Radiological Warfare , Chemical warfare agents , Foreign technology , Cw(Chemical weapons)

    Multi-Objective Hybrid Optimal Control for Multiple-Flyby Interplanetary Mission Design using Chemical Propulsion

    Englander J. A. / Vavrina M. A. | NTIS | 2015
    Schlagwörter: Space Technology , Chemical propulsion