Geoplasma Llc
CAGE Code: 7SNG9
NCAGE Code: 7SNG9
Status: Active
Type: Commercial Supplier
Summary
Geoplasma Llc is an Active Commercial Supplier with the Cage Code 7SNG9.
Address
6703 Odyssey Dr Nw
Ste 304
Huntsville AL 35806-3308
United States
Points of Contact
No Points of Contact...
Related Information
No Related Information...
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Frequently Asked Questions (FAQ) for CAGE 7SNG9
- What is CAGE Code 7SNG9?
- 7SNG9 is the unique identifier used by NATO Organizations to reference the physical entity known as Geoplasma Llc located at 6703 Odyssey Dr Nw, Ste 304, Huntsville AL 35806-3308, United States.
- Who is CAGE Code 7SNG9?
- 7SNG9 refers to Geoplasma Llc located at 6703 Odyssey Dr Nw, Ste 304, Huntsville AL 35806-3308, United States.
- Where is CAGE Code 7SNG9 Located?
- CAGE Code 7SNG9 is located in Huntsville, AL, USA.
Contracting History for CAGE 7SNG9 Most Recent 25 Records
- 80NSSC18C0169
- Nasa S Vision For Space Exploration Includes Long Duration Human Travel Beyond Low Earth Orbit (Leo) And Sustained Human Presence On Other Planetary Surfaces. For This Vision To Be A Reality, One Of The Major Challenges Is To Minimize Radiation Exposure To The Crew And Equipment. A Material Based Solution Typically Results In Paying A Penalty Due To Additional Weight. During This Effort, A Multifunctional Composite Is Being Developed As An Integral Part Of A Spacecraft Or Habitat To Provide Shielding Against Galactic Cosmic Rays (Gcrs) And Secondary Particles, Enhanced Structural Integrity, And Durability Against Overall Space Environment. During Phase 1, Innovative Fabrication Methods Have Been Developed To Produce The Radiation Shielding Composite. Mechanical Testing Showed That Compared To Traditional Aerospace Aluminum Alloys Significant Enhancements In Specific Strength And Stiffness Were Obtained. During Phase 2, The Composite Will Be Optimized And Samples Will Be Produced For Testing. A Primary Task Will Be To Use The Misse-Ff Facility To Test The Composite Against The Combined Space Environment. Samples Tested On Ground For Mechanical And Radiation Properties Will Be Compared To Samples Tested On Leo To Unambiguously Demonstrate The Multifunctionality Of The Composite.
- 10 Nov 2021
- Nasa S Vision For Space Exploration Includes Long Duration Human Travel Beyond Low Earth Orbit (Leo) And Sustained Human Presence On Other Planetary Surfaces. For This Vision To Be A Reality, One Of The Major Challenges Is To Minimize Radiation Exposure To The Crew And Equipment. A Material Based Solution Typically Results In Paying A Penalty Due To Additional Weight. During This Effort, A Multifunctional Composite Is Being Developed As An Integral Part Of A Spacecraft Or Habitat To Provide Shielding Against Galactic Cosmic Rays (Gcrs) And Secondary Particles, Enhanced Structural Integrity, And Durability Against Overall Space Environment. During Phase 1, Innovative Fabrication Methods Have Been Developed To Produce The Radiation Shielding Composite. Mechanical Testing Showed That Compared To Traditional Aerospace Aluminum Alloys Significant Enhancements In Specific Strength And Stiffness Were Obtained. During Phase 2, The Composite Will Be Optimized And Samples Will Be Produced For Testing. A Primary Task Will Be To Use The Misse-Ff Facility To Test The Composite Against The Combined Space Environment. Samples Tested On Ground For Mechanical And Radiation Properties Will Be Compared To Samples Tested On Leo To Unambiguously Demonstrate The Multifunctionality Of The Composite.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,975.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC19C0212
- Eo14042 Thermal Protection Systems (Tps) Are Needed To Protect Spacecraft And Crew From High
- 14 Oct 2021
- Eo14042 Thermal Protection Systems (Tps) Are Needed To Protect Spacecraft And Crew From High
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,948.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC19C0212
- Thermal Protection Systems (Tps) Are Needed To Protect Spacecraft And Crew From High Temperature Propellant Gases, Heating From Solar Radiation, And Heating From Friction With Planetary Atmospheres.
- 20 Jul 2021
- Thermal Protection Systems (Tps) Are Needed To Protect Spacecraft And Crew From High Temperature Propellant Gases, Heating From Solar Radiation, And Heating From Friction With Planetary Atmospheres.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,948.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0169
- Eo14042 Nasa S Vision For Space Exploration Includes Long Duration Human Travel Beyond Low Earth Orbit (Leo) And Sustained Human Presence On Other Planetary Surfaces. For This Vision To Be A Reality, One Of The Major Challenges Is To Minimize Radiation Exposure To The Crew And Equipment. A Material Based Solution Typically Results In Paying A Penalty Due To Additional Weight. During This Effort, A Multifunctional Composite Is Being Developed As An Integral Part Of A Spacecraft Or Habitat To Provide Shielding Against Galactic Cosmic Rays (Gcrs) And Secondary Particles, Enhanced Structural Integrity, And Durability Against Overall Space Environment. During Phase 1, Innovative Fabrication Methods Have Been Developed To Produce The Radiation Shielding Composite. Mechanical Testing Showed That Compared To Traditional Aerospace Aluminum Alloys Significant Enhancements In Specific Strength And Stiffness Were Obtained. During Phase 2, The Composite Will Be Optimized And Samples Will Be Produced For Testing. A Primary Task Will Be To Use The Misse-Ff Facility To Test The Composite Against The Combined Space Environment. Samples Tested On Ground For Mechanical And Radiation Properties Will Be Compared To Samples Tested On Leo To Unambiguously Demonstrate The Multifunctionality Of The Composite.
- 14 Oct 2021
- Eo14042 Nasa S Vision For Space Exploration Includes Long Duration Human Travel Beyond Low Earth Orbit (Leo) And Sustained Human Presence On Other Planetary Surfaces. For This Vision To Be A Reality, One Of The Major Challenges Is To Minimize Radiation Exposure To The Crew And Equipment. A Material Based Solution Typically Results In Paying A Penalty Due To Additional Weight. During This Effort, A Multifunctional Composite Is Being Developed As An Integral Part Of A Spacecraft Or Habitat To Provide Shielding Against Galactic Cosmic Rays (Gcrs) And Secondary Particles, Enhanced Structural Integrity, And Durability Against Overall Space Environment. During Phase 1, Innovative Fabrication Methods Have Been Developed To Produce The Radiation Shielding Composite. Mechanical Testing Showed That Compared To Traditional Aerospace Aluminum Alloys Significant Enhancements In Specific Strength And Stiffness Were Obtained. During Phase 2, The Composite Will Be Optimized And Samples Will Be Produced For Testing. A Primary Task Will Be To Use The Misse-Ff Facility To Test The Composite Against The Combined Space Environment. Samples Tested On Ground For Mechanical And Radiation Properties Will Be Compared To Samples Tested On Leo To Unambiguously Demonstrate The Multifunctionality Of The Composite.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,975.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0169
- Nasa S Vision For Space Exploration Includes Long Duration Human Travel Beyond Low Earth Orbit (Leo) And Sustained Human Presence On Other Planetary Surfaces. For This Vision To Be A Reality, One Of The Major Challenges Is To Minimize Radiation Exposure To The Crew And Equipment. A Material Based Solution Typically Results In Paying A Penalty Due To Additional Weight. During This Effort, A Multifunctional Composite Is Being Developed As An Integral Part Of A Spacecraft Or Habitat To Provide Shielding Against Galactic Cosmic Rays (Gcrs) And Secondary Particles, Enhanced Structural Integrity, And Durability Against Overall Space Environment. During Phase 1, Innovative Fabrication Methods Have Been Developed To Produce The Radiation Shielding Composite. Mechanical Testing Showed That Compared To Traditional Aerospace Aluminum Alloys Significant Enhancements In Specific Strength And Stiffness Were Obtained. During Phase 2, The Composite Will Be Optimized And Samples Will Be Produced For Testing. A Primary Task Will Be To Use The Misse-Ff Facility To Test The Composite Against The Combined Space Environment. Samples Tested On Ground For Mechanical And Radiation Properties Will Be Compared To Samples Tested On Leo To Unambiguously Demonstrate The Multifunctionality Of The Composite.
- 28 Nov 2023
- Nasa S Vision For Space Exploration Includes Long Duration Human Travel Beyond Low Earth Orbit (Leo) And Sustained Human Presence On Other Planetary Surfaces. For This Vision To Be A Reality, One Of The Major Challenges Is To Minimize Radiation Exposure To The Crew And Equipment. A Material Based Solution Typically Results In Paying A Penalty Due To Additional Weight. During This Effort, A Multifunctional Composite Is Being Developed As An Integral Part Of A Spacecraft Or Habitat To Provide Shielding Against Galactic Cosmic Rays (Gcrs) And Secondary Particles, Enhanced Structural Integrity, And Durability Against Overall Space Environment. During Phase 1, Innovative Fabrication Methods Have Been Developed To Produce The Radiation Shielding Composite. Mechanical Testing Showed That Compared To Traditional Aerospace Aluminum Alloys Significant Enhancements In Specific Strength And Stiffness Were Obtained. During Phase 2, The Composite Will Be Optimized And Samples Will Be Produced For Testing. A Primary Task Will Be To Use The Misse-Ff Facility To Test The Composite Against The Combined Space Environment. Samples Tested On Ground For Mechanical And Radiation Properties Will Be Compared To Samples Tested On Leo To Unambiguously Demonstrate The Multifunctionality Of The Composite.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,975.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0169
- Nasa S Vision For Space Exploration Includes Long Duration Human Travel Beyond Low Earth Orbit (Leo) And Sustained Human Presence On Other Planetary Surfaces. For This Vision To Be A Reality, One Of The Major Challenges Is To Minimize Radiation Exposure To The Crew And Equipment. A Material Based Solution Typically Results In Paying A Penalty Due To Additional Weight. During This Effort, A Multifunctional Composite Is Being Developed As An Integral Part Of A Spacecraft Or Habitat To Provide Shielding Against Galactic Cosmic Rays (Gcrs) And Secondary Particles, Enhanced Structural Integrity, And Durability Against Overall Space Environment. During Phase 1, Innovative Fabrication Methods Have Been Developed To Produce The Radiation Shielding Composite. Mechanical Testing Showed That Compared To Traditional Aerospace Aluminum Alloys Significant Enhancements In Specific Strength And Stiffness Were Obtained. During Phase 2, The Composite Will Be Optimized And Samples Will Be Produced For Testing. A Primary Task Will Be To Use The Misse-Ff Facility To Test The Composite Against The Combined Space Environment. Samples Tested On Ground For Mechanical And Radiation Properties Will Be Compared To Samples Tested On Leo To Unambiguously Demonstrate The Multifunctionality Of The Composite.
- 15 Mar 2023
- Nasa S Vision For Space Exploration Includes Long Duration Human Travel Beyond Low Earth Orbit (Leo) And Sustained Human Presence On Other Planetary Surfaces. For This Vision To Be A Reality, One Of The Major Challenges Is To Minimize Radiation Exposure To The Crew And Equipment. A Material Based Solution Typically Results In Paying A Penalty Due To Additional Weight. During This Effort, A Multifunctional Composite Is Being Developed As An Integral Part Of A Spacecraft Or Habitat To Provide Shielding Against Galactic Cosmic Rays (Gcrs) And Secondary Particles, Enhanced Structural Integrity, And Durability Against Overall Space Environment. During Phase 1, Innovative Fabrication Methods Have Been Developed To Produce The Radiation Shielding Composite. Mechanical Testing Showed That Compared To Traditional Aerospace Aluminum Alloys Significant Enhancements In Specific Strength And Stiffness Were Obtained. During Phase 2, The Composite Will Be Optimized And Samples Will Be Produced For Testing. A Primary Task Will Be To Use The Misse-Ff Facility To Test The Composite Against The Combined Space Environment. Samples Tested On Ground For Mechanical And Radiation Properties Will Be Compared To Samples Tested On Leo To Unambiguously Demonstrate The Multifunctionality Of The Composite.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,975.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC19C0212
- Using Misse-Ff To Determine The Effect Of The Space Environment On Advanced Thermal Protection Coatings
- 20 Dec 2023
- Using Misse-Ff To Determine The Effect Of The Space Environment On Advanced Thermal Protection Coatings
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,948.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0169
- Nasa S Vision For Space Exploration Includes Long Duration Human Travel Beyond Low Earth Orbit (Leo) And Sustained Human Presence On Other Planetary Surfaces. For This Vision To Be A Reality, One Of The Major Challenges Is To Minimize Radiation Exposure To The Crew And Equipment. A Material Based Solution Typically Results In Paying A Penalty Due To Additional Weight. During This Effort, A Multifunctional Composite Is Being Developed As An Integral Part Of A Spacecraft Or Habitat To Provide Shielding Against Galactic Cosmic Rays (Gcrs) And Secondary Particles, Enhanced Structural Integrity, And Durability Against Overall Space Environment. During Phase 1, Innovative Fabrication Methods Have Been Developed To Produce The Radiation Shielding Composite. Mechanical Testing Showed That Compared To Traditional Aerospace Aluminum Alloys Significant Enhancements In Specific Strength And Stiffness Were Obtained. During Phase 2, The Composite Will Be Optimized And Samples Will Be Produced For Testing. A Primary Task Will Be To Use The Misse-Ff Facility To Test The Composite Against The Combined Space Environment. Samples Tested On Ground For Mechanical And Radiation Properties Will Be Compared To Samples Tested On Leo To Unambiguously Demonstrate The Multifunctionality Of The Composite.
- 18 Jul 2022
- Nasa S Vision For Space Exploration Includes Long Duration Human Travel Beyond Low Earth Orbit (Leo) And Sustained Human Presence On Other Planetary Surfaces. For This Vision To Be A Reality, One Of The Major Challenges Is To Minimize Radiation Exposure To The Crew And Equipment. A Material Based Solution Typically Results In Paying A Penalty Due To Additional Weight. During This Effort, A Multifunctional Composite Is Being Developed As An Integral Part Of A Spacecraft Or Habitat To Provide Shielding Against Galactic Cosmic Rays (Gcrs) And Secondary Particles, Enhanced Structural Integrity, And Durability Against Overall Space Environment. During Phase 1, Innovative Fabrication Methods Have Been Developed To Produce The Radiation Shielding Composite. Mechanical Testing Showed That Compared To Traditional Aerospace Aluminum Alloys Significant Enhancements In Specific Strength And Stiffness Were Obtained. During Phase 2, The Composite Will Be Optimized And Samples Will Be Produced For Testing. A Primary Task Will Be To Use The Misse-Ff Facility To Test The Composite Against The Combined Space Environment. Samples Tested On Ground For Mechanical And Radiation Properties Will Be Compared To Samples Tested On Leo To Unambiguously Demonstrate The Multifunctionality Of The Composite.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $749,975.00
- National Aeronautics And Space Administration (Nasa)