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UTRON, Inc.

Company Information
Address
9441 Innovation Drive
Manassas, VA -
United States



Information

UEI: N/A

# of Employees: 42


Ownership Information

HUBZone Owned: No

Socially and Economically Disadvantaged: No

Woman Owned: No



Award Charts




Award Listing

  1. Hydrogen Based High Velocity Insensitive Launch Systems

    Amount: $1,318,500.00

    Much progress has been made with high-pressure hydrogen combustion for high velocity launcher use, including groundbreaking research with non-intrusive laser ignition in the phase I effort. Research ...

    SBIRPhase II2012Department of Defense Defense Advanced Research Projects Agency
  2. Hydrogen Based High Velocity Insensitive Launch Systems

    Amount: $149,623.00

    The objective of this proposal is to further explore and refine the use of hydrogen based propellants for use in high velocity gun systems. This proposal will build on the ongoing and very novel rese ...

    SBIRPhase I2011Department of Defense Defense Advanced Research Projects Agency
  3. Nanocomposite Thermolectric Materials by High Pressure Powder Consolidation Manufacturing

    Amount: $600,000.00

    In response to NASA's need to develop advanced nanostructured thermolectric materials, UTRON is proposing an innovative high pressure powder consolidation manufacturing to fabricate near net shape and ...

    SBIRPhase II2008National Aeronautics and Space Administration
  4. High Temperature Propulsion Components for Advanced Solid DACS by Combustion Driven Powder Compaction (CDC) Technology

    Amount: $1,249,470.00

    The proposed Phase II work is mainly focused on further continuing and developing Composite Alloys of W-25Re, Mo-Re, with Ta, Hf, HfC, and TaC for the application development of higher thrust-high tem ...

    SBIRPhase II2008Department of Defense Missile Defense Agency
  5. Near Net Shape Manufacturing of Actuator Components by Rapid Combustion Driven Powder Consolidation Technology

    Amount: $99,999.00

    In response to MDA's need for fabricating actuator components for DACS and other systems, UTRON proposes an innovative manufacturing technology called the high pressure Combustion Driven Powder Compac ...

    SBIRPhase I2008Department of Defense Missile Defense Agency
  6. High Temperature Propulsion Components for Advanced Solid DACS by Combustion Driven Powder Compaction (CDC) Technology

    Amount: $99,887.00

    The proposed work is mainly focused on developing Composite Alloys of W-Re, Mo-Re, with Ta, Hf, HfC, and TaC for the application development of higher thrust-high temperature (e.g., TDACS FEDS) Large ...

    SBIRPhase I2007Department of Defense Missile Defense Agency
  7. Nanocomposite Thermolectric Materials by High Pressure Powder Consolidation Manufacturing

    Amount: $99,996.00

    In response to NASA's need to develop advanced nanostructured thermolectric materials, UTRON is proposing an innovative high pressure powder consolidation manufacturing to fabricate near net shape and ...

    SBIRPhase I2007National Aeronautics and Space Administration
  8. Net Shape Manufacturing of Functionally Grading Nanocomposite Materials for Gear System Components Using High Pressure Combustion Driven Powder Compac

    Amount: $499,819.00

    In response to Navy's needs for gear system component and materials development for applications such as V22-Aircraft/Helicopter, UTRON proposes an innovative manufacturing technology called the high ...

    STTRPhase II2007Department of Defense Navy
  9. Ultrafast Mechanical Switch for Hybrid Current Limiters

    Amount: $69,914.00

    This proposed effort investigates the current and voltage interruption capability of a novel breaker contact design driven by a rugged ultra-fast actuation mechanism. The arc created by the opening ...

    SBIRPhase I2006Department of Defense Navy
  10. NET SHAPE FABRICATION OF RHENIUM AND RHENIUM/HfC, TaC, SiC COMPOSITES FOR MDA-DACS NOZZLE LINERS USING HIGH PRESSURE COMBUSTION DRIVEN POWDER COMPACT

    Amount: $1,534,960.00

    This MDA SBIR Phase II is focused on further developing and optimizing high density, mechanically durable high temperature Molybdenum/Rhenium, Rhenium and their alloys of Hf and HfC in net shape using ...

    SBIRPhase II2005Department of Defense Missile Defense Agency
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