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Applied Optimization, Inc

Company Information
Address 3040 Presidential Dr Ste 100
Fairborn, OH, 45324-6272

http://www.appliedo.com

Information

DUNS: 838936599

# of Employees: 35


Ownership Information

HUBZone Owned: N

Socially and Economically Disadvantaged: Y

Woman Owned: N



Award Charts




Award Listing

  1. Rapid, Low Cost, High-quality Component Qualification Using Multi-scale, Multi-physics Analytical Toolset for the Optimization of Metal Additive Manuf

    Amount: $500,000.00

    The research objective of the proposed Phase II is to demonstrate a prototype analytical toolset for the optimization of metal additive manufacturing (AM) machine settings. Its purpose is to reduce th ...

    SBIRPhase II2019Department of Defense Navy
  2. Feed-Forward Controls for Laser Powder Bed Fusion Based Metal Additive Manufacturing

    Amount: $1,000,000.00

    The research objective of the proposed work is to demonstrate a prototype of a feed-forward control (FFC) system for the laser powder bed process to produce higher quality AM builds. The FFC will comp ...

    SBIRPhase II2019Department of Defense Navy
  3. Optimization of Sodium Guide Star Return using Polarization and/or Modulation Control

    Amount: $150,000.00

    The research objective of the proposed work is to increase the efficiency of the laser return of a Sodium Guide Star Laser (SGSL) reflected off the sodium layer for increased reliability and applicabi ...

    STTRPhase I2019Department of Defense Air Force
  4. Tunable bioinspired spatially-varying random photonic crystals

    Amount: $150,000.00

    The research objective is to develop a tunable spatially-varying photonic crystal (SVPC) to achieve the optical propagation properties (reflection and transmission) of the light through the designed s ...

    STTRPhase I2019Department of Defense Air Force
  5. Extensible Modeling to Create Knowledgebase for AM Processing of Alloy GrCop-84

    Amount: $124,995.00

    The research objective of the proposed work is to demonstrate feasibility of utilizing extensible modeling to create an AM knowledgebase for copper alloy, GrCop-84, and utilize it to design an AM proc ...

    STTRPhase I2018National Aeronautics and Space Administration
  6. SINGULAR OPTICS COMMUNICATIONS METHOD FOR DISADVANTAGED USERS

    Amount: $150,000.00

    The research objective of this proposal is to design a photonic integrated circuit that performs as a transceiver for free space optical communication utilizing distinct and variable orbital angular m ...

    SBIRPhase I2018Department of Defense Air Force
  7. Understanding Additive Manufacturing Solidification Profile Effects on Material Inhomogenieties, Defects, and Qualification

    Amount: $1,000,000.00

    The research objective of the proposed work is to enhance the Phase I development on solidification science-based additive manufacturing (AM) ICME for multi-scale, microstructure modeling, which utili ...

    SBIRPhase II2018Department of Defense Navy
  8. Feed-Forward Controls for Laser Powder Bed Fusion Based Metal Additive Manufacturing

    Amount: $125,000.00

    The research objective of the proposed work is to develop a concept for a feed-forward control (FFC) hardware, algorithms, and multi-physics-based models to allow real-time tracking of powder bed laye ...

    SBIRPhase I2018Department of Defense Navy
  9. Understanding AM Solidification Profile Effects on Material Inhomogenieties, Defects, and Qualification

    Amount: $224,999.00

    The research objective of this proposal is to demonstrate feasibility of a solidification science based Integrated Computational Materials Engineering (ICME) that combines computational heat, mass tra ...

    SBIRPhase I2017Department of Defense Navy
  10. Onsite Structural Restoration Methods for Aircraft Components

    Amount: $80,000.00

    The research objective of this proposal is to demonstrate feasibility of restoring the dimensional and structural capability of a notional damaged Ti-6Al-4V turbine blade using a combination of pulsed ...

    SBIRPhase I2017Department of Defense Navy
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