Bangham Engineering Inc
CAGE Code: 520C0
NCAGE Code: 520C0
Status: Active
Type: Commercial Supplier
Dun & Bradstreet (DUNS): 627048429
Summary
Bangham Engineering Inc is an Active Commercial Supplier with the Cage Code 520C0 and is tracked by Dun & Bradstreet under DUNS Number 627048429..
Address
1300 Meridian St
Ste 3001
Huntsville AL 35801-4614
United States
Points of Contact
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Frequently Asked Questions (FAQ) for CAGE 520C0
- What is CAGE Code 520C0?
- 520C0 is the unique identifier used by NATO Organizations to reference the physical entity known as Bangham Engineering Inc located at 1300 Meridian St, Ste 3001, Huntsville AL 35801-4614, United States.
- Who is CAGE Code 520C0?
- 520C0 refers to Bangham Engineering Inc located at 1300 Meridian St, Ste 3001, Huntsville AL 35801-4614, United States.
- Where is CAGE Code 520C0 Located?
- CAGE Code 520C0 is located in Huntsville, AL, USA.
Contracting History for CAGE 520C0 Most Recent 25 Records
- 80NSSC18P2217
- The E-Sail Technology Promises To Provide A Propellant-Less Propulsion That Can Obtain Accelerations Greater Than 2 M/Sec. This Can Lower Trip Times To Any Location In Deep Space With Trips To 100 Au Taking Less Than 10 Years. This Is Less Than Half The Time Any Current Chemical, Electric, Or Solar Sail Propulsion Can Do. The Propulsion System Can Be Scaled From Cubesats To Full Size Exploration (Discovery Class) Mission Spacecraft. E-Sail Propulsion Repel The Protons From The Solar Winds To Push The Vehicle. Much Of The E-Sail Technologies Have Been Matured From Recent Nasa Funded Tests And Studies. Parallel Efforts In Europe Are Also Maturing The Concept. The Highest Risk Element Of The E-Sail Are The Tethers Used To Create The Electrostatic Field That Repels The Protons That Propel The Spacecraft. Deployment And Control Of These Tethers Presents A Serious Challenge. This Effort Will Develop High Fidelity Simulations And Demonstrate Deployment Of Up To 16 Km Long Tethers. This Risk Reduction Effort Will Allow A Technology Demonstration Of The E-Sail In The 2021 Time Frame. Technology Demonstrations Are Required To Move The Propulsion System Forward. Ground Based Testing Will Reduce Much Of The Risk Of The Remaining Technologies But The Tether Deployments Which Have Been A Challenge Require Innovated Testing Approaches To Reduce The Risk And To Develop Techniques And Control Strategies To Reduce The Deployment Risks
- 1 Aug 2018
- The E-Sail Technology Promises To Provide A Propellant-Less Propulsion That Can Obtain Accelerations Greater Than 2 M/Sec. This Can Lower Trip Times To Any Location In Deep Space With Trips To 100 Au Taking Less Than 10 Years. This Is Less Than Half The Time Any Current Chemical, Electric, Or Solar Sail Propulsion Can Do. The Propulsion System Can Be Scaled From Cubesats To Full Size Exploration (Discovery Class) Mission Spacecraft. E-Sail Propulsion Repel The Protons From The Solar Winds To Push The Vehicle. Much Of The E-Sail Technologies Have Been Matured From Recent Nasa Funded Tests And Studies. Parallel Efforts In Europe Are Also Maturing The Concept. The Highest Risk Element Of The E-Sail Are The Tethers Used To Create The Electrostatic Field That Repels The Protons That Propel The Spacecraft. Deployment And Control Of These Tethers Presents A Serious Challenge. This Effort Will Develop High Fidelity Simulations And Demonstrate Deployment Of Up To 16 Km Long Tethers. This Risk Reduction Effort Will Allow A Technology Demonstration Of The E-Sail In The 2021 Time Frame. Technology Demonstrations Are Required To Move The Propulsion System Forward. Ground Based Testing Will Reduce Much Of The Risk Of The Remaining Technologies But The Tether Deployments Which Have Been A Challenge Require Innovated Testing Approaches To Reduce The Risk And To Develop Techniques And Control Strategies To Reduce The Deployment Risks
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $102,367.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18P2217
- The E-Sail Technology Promises To Provide A Propellant-Less Propulsion That Can Obtain Accelerations Greater Than 2 M/Sec. This Can Lower Trip Times To Any Location In Deep Space With Trips To 100 Au Taking Less Than 10 Years. This Is Less Than Half The Time Any Current Chemical, Electric, Or Solar Sail Propulsion Can Do. The Propulsion System Can Be Scaled From Cubesats To Full Size Exploration (Discovery Class) Mission Spacecraft. E-Sail Propulsion Repel The Protons From The Solar Winds To Push The Vehicle. Much Of The E-Sail Technologies Have Been Matured From Recent Nasa Funded Tests And Studies. Parallel Efforts In Europe Are Also Maturing The Concept. The Highest Risk Element Of The E-Sail Are The Tethers Used To Create The Electrostatic Field That Repels The Protons That Propel The Spacecraft. Deployment And Control Of These Tethers Presents A Serious Challenge. This Effort Will Develop High Fidelity Simulations And Demonstrate Deployment Of Up To 16 Km Long Tethers. This Risk Reduction Effort Will Allow A Technology Demonstration Of The E-Sail In The 2021 Time Frame. Technology Demonstrations Are Required To Move The Propulsion System Forward. Ground Based Testing Will Reduce Much Of The Risk Of The Remaining Technologies But The Tether Deployments Which Have Been A Challenge Require Innovated Testing Approaches To Reduce The Risk And To Develop Techniques And Control Strategies To Reduce The Deployment Risks
- 13 Feb 2019
- The E-Sail Technology Promises To Provide A Propellant-Less Propulsion That Can Obtain Accelerations Greater Than 2 M/Sec. This Can Lower Trip Times To Any Location In Deep Space With Trips To 100 Au Taking Less Than 10 Years. This Is Less Than Half The Time Any Current Chemical, Electric, Or Solar Sail Propulsion Can Do. The Propulsion System Can Be Scaled From Cubesats To Full Size Exploration (Discovery Class) Mission Spacecraft. E-Sail Propulsion Repel The Protons From The Solar Winds To Push The Vehicle. Much Of The E-Sail Technologies Have Been Matured From Recent Nasa Funded Tests And Studies. Parallel Efforts In Europe Are Also Maturing The Concept. The Highest Risk Element Of The E-Sail Are The Tethers Used To Create The Electrostatic Field That Repels The Protons That Propel The Spacecraft. Deployment And Control Of These Tethers Presents A Serious Challenge. This Effort Will Develop High Fidelity Simulations And Demonstrate Deployment Of Up To 16 Km Long Tethers. This Risk Reduction Effort Will Allow A Technology Demonstration Of The E-Sail In The 2021 Time Frame. Technology Demonstrations Are Required To Move The Propulsion System Forward. Ground Based Testing Will Reduce Much Of The Risk Of The Remaining Technologies But The Tether Deployments Which Have Been A Challenge Require Innovated Testing Approaches To Reduce The Risk And To Develop Techniques And Control Strategies To Reduce The Deployment Risks
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $102,367.00
- National Aeronautics And Space Administration (Nasa)