Atlas Scientific
CAGE Code: 1NWR2
NCAGE Code: 1NWR2
Status: Discontinued
Type: Commercial Supplier
Dun & Bradstreet (DUNS): 938515913
Summary
Atlas Scientific is a Discontinued Commercial Supplier with the Cage Code 1NWR2 and is tracked by Dun & Bradstreet under DUNS Number 938515913..
Address
1367 Camino Robles Way
San Jose CA 95120-4925
United States
Points of Contact
No Points of Contact...
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Frequently Asked Questions (FAQ) for CAGE 1NWR2
- What is CAGE Code 1NWR2?
- 1NWR2 is the unique identifier used by NATO Organizations to reference the physical entity known as Atlas Scientific located at 1367 Camino Robles Way, San Jose CA 95120-4925, United States.
- Who is CAGE Code 1NWR2?
- 1NWR2 refers to Atlas Scientific located at 1367 Camino Robles Way, San Jose CA 95120-4925, United States.
- Where is CAGE Code 1NWR2 Located?
- CAGE Code 1NWR2 is located in San Jose, CA, USA.
Contracting History for CAGE 1NWR2 Most Recent 25 Records
- NNX17CP28P
- Igf::Ot::Igf Future Nasa Astrophysics And Exploration Missions Will Require Various Enhancements In Multi-Stage Cryocoolers. These Include Increased Efficiency, Reduced Vibration And Reductions In Overall System Mass And Power Consumption. For The Coolers Required, Stirling And Pulse Tube Coolers Offer The Best Opportunities. At Present, The Efficiency Of These Coolers Is Limited By The Effectiveness Of Low-Temperature-Stage Regenerators. Below About 60 K, Two Factors Play Key Roles In Reducing The Effectiveness Of Regenerators. The Heat Capacity Of Most Materials Falls Rapidly With Decreasing Temperature, Thus, Reducing The Efficiency. Also, Materials Commonly Used Are Only Available In Powder Form, A Form Known To Raise Reliability Issues. In The Proposed Effort, We Will Address Both The Aspect Of High-Efficiency And Regenerator Durability. First, A Rare Earth Alloy, That Below 60 K Has A Heat Capacity Higher Than That Of Commonly Used Materials, Will Be Configured In A Well-Defined Intricate Porous Matrix; Secondly, Both The Void Fraction And The Ratio Of Surface Area To Solid Fraction Of The Regenerator Matrix Will Be Tailored Using A New Approach, Addressing That Both Form And Thermal Characteristics Are Essential To Achieving A High Efficiency.
- 5 Jul 2017
- Igf::Ot::Igf Future Nasa Astrophysics And Exploration Missions Will Require Various Enhancements In Multi-Stage Cryocoolers. These Include Increased Efficiency, Reduced Vibration And Reductions In Overall System Mass And Power Consumption. For The Coolers Required, Stirling And Pulse Tube Coolers Offer The Best Opportunities. At Present, The Efficiency Of These Coolers Is Limited By The Effectiveness Of Low-Temperature-Stage Regenerators. Below About 60 K, Two Factors Play Key Roles In Reducing The Effectiveness Of Regenerators. The Heat Capacity Of Most Materials Falls Rapidly With Decreasing Temperature, Thus, Reducing The Efficiency. Also, Materials Commonly Used Are Only Available In Powder Form, A Form Known To Raise Reliability Issues. In The Proposed Effort, We Will Address Both The Aspect Of High-Efficiency And Regenerator Durability. First, A Rare Earth Alloy, That Below 60 K Has A Heat Capacity Higher Than That Of Commonly Used Materials, Will Be Configured In A Well-Defined Intricate Porous Matrix; Secondly, Both The Void Fraction And The Ratio Of Surface Area To Solid Fraction Of The Regenerator Matrix Will Be Tailored Using A New Approach, Addressing That Both Form And Thermal Characteristics Are Essential To Achieving A High Efficiency.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $124,453.00
- National Aeronautics And Space Administration (Nasa)