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Award Data

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The Award database is continually updated throughout the year. As a result, data for FY22 is not expected to be complete until September, 2023.

Download all SBIR.gov award data either with award abstracts (290MB) or without award abstracts (65MB). A data dictionary and additional information is located on the Data Resource Page. Files are refreshed monthly.

  1. Evaluation of safety and efficacy of commensal probiotics, L. salivarius MMP strain and L. senioris Accacia strain for maintaining dolphin (Tursiops

    SBC: Accacia International LLC            Topic: N13AT013

    The proposed Phase II project intends to conduct a clinical study to evaluate the safety and efficacy of probiotics from dolphins, and to develop and commercialize a microencapsulated probiotic product to improve gastrointestinal health of dolphins. Preliminary research conducted by the US Navy Marine Mammal program (MMP) and Accacia International has identified some lactobacilli strains with prob ...

    STTR Phase II 2016 Department of DefenseNavy
  2. 3D Acoustic Model for Geometrically Constrained Environments

    SBC: HEAT, LIGHT, AND SOUND RESEARCH, INC.            Topic: N16AT018

    Systems that operate in constrained environments depend on the acoustics in several ways. Harbor defense systems detect intruders (people and/or vessels) by either listening for their noises (passively) or by pinging on them and detecting their echoes (actively). Furthermore, such systems may also form the equivalent of an underwater cell phone network using sound to carry the information. The aco ...

    STTR Phase I 2016 Department of DefenseNavy
  3. Integrated Computational Material Engineering Tool Set for Additive Manufacturing of Stainless Steel (316L)

    SBC: QUESTEK INNOVATIONS LLC            Topic: N16AT022

    In this Phase I STTR program, QuesTek Innovations, a leader in the field of integrated computational materials engineering (ICME) teaming with Prof. W.E. King from Lawrence Livermore National Laboratory (LLNL) as QuesTeks academic partner, proposes expand the computational Materials by Design technology by developing an Integrated Model Toolkit that enables the modeling of AM process by predicting ...

    STTR Phase I 2016 Department of DefenseNavy
  4. Bonded Joint Analysis Method

    SBC: M4 ENGINEERING, INC.            Topic: N12AT004

    During Phase I and Phase II, M4 Engineering, Inc. and Sandia National Laboratories have created a unique bonded joint analysis methodology and associated software. During Phase II.5, the developed techniques will be further enhanced and a fully functional commercial analysis code (SIMULIA/Abaqus) plug-in will be created. The software plug-in will make the advanced technology accessible to all leve ...

    STTR Phase II 2016 Department of DefenseNavy
  5. Quantifying Uncertainty in the Mechanical Performance of Additively Manufactured Parts Due to Material and Process Variation

    SBC: QUESTEK INNOVATIONS LLC            Topic: N16AT004

    Additive manufacturing (AM) promises to be an innovative technology that can enable rapid manufacturing of complicated parts and greatly reduced cycle time. However, the AM process is complex and involves a large number of processing steps, each with its own set of uncertainties. These uncertainties compound through the AM build process, resulting in parts with widely varying properties across dif ...

    STTR Phase I 2016 Department of DefenseNavy
  6. Air Cycle Machine Low Friction, Medium Temperature, Foil Bearing Coating

    SBC: ACREE TECHNOLOGIES INCORPORATED            Topic: N16AT005

    The purpose of this project is to demonstrate the feasibility of using an innovative, durable, low friction, and non-toxic solid lubricant coating for foil air bearings for air cycle machines (ACM). Acrees coating provides superior wear characteristics at all temperatures and provides a substantial improvement over polyimide type coatings that are currently used on ACMs. The coating consists of tw ...

    STTR Phase I 2016 Department of DefenseNavy
  7. Air Cycle Machine Low Friction, Medium Temperature, Foil Bearing Coating

    SBC: IBC Materials & Technologies, LLC            Topic: N16AT005

    In this proposed SBIR program, IBC Materials & Technologies, in conjunction with our industry partner Mechanical Solutions, Inc. (MSI) and Texas A&M University, will leverage our knowledge and experience in the domain of industrial metallic coatings to develop a metallurgical coating solution for the Air Foil Bearing. IBC has deep expertise in a variety of industrial coating processes including mu ...

    STTR Phase I 2016 Department of DefenseNavy
  8. Novel, High-Efficiency, Light-weight, Flexible Solar Cells as Electrical Power Generation Source

    SBC: Microlink Devices, Inc.            Topic: N16AT006

    MicroLink Devices proposes to integrate its novel, high-efficiency, lightweight, and flexible solar sheet technology to a small unmanned aircraft system (UAS) that will provide a significant source of power, enabling long endurance flights spanning one full day to several days of continuous operation. This will be a breakthrough technology that will enhance the performance and utility of the Navys ...

    STTR Phase I 2016 Department of DefenseNavy
  9. Optimized High Performance Stainless Steel Powder for Selective Laser Melting Additive Manufacturing (AM)

    SBC: QUESTEK INNOVATIONS LLC            Topic: N16AT007

    Additive Manufacturing (AM) promises to be an innovative technology that can enable rapid manufacturing of complex parts at greatly reduced cycle time. With the maturation of selective laser melting (SLM) AM technologies there is increasing interest in applying this manufacturing method to the production of aircraft structural components, many of which are made of high-strength stainless steels. H ...

    STTR Phase I 2016 Department of DefenseNavy
  10. Additive Manufacturing for Microwave Vacuum Electron Device Cost Reduction

    SBC: Radiabeam Technologies, LLC            Topic: N16AT010

    The Department of the Navy has a need for the development of an additive manufacturing (AM) process for key vacuum electronic device components to meet on-demand, flexible, and affordable manufacturing requirements. The developed manufacturing method has a potential to reduce cost of vacuum electronics by as much as 70% as well as simplify and hence expedite production process of these devices by ...

    STTR Phase I 2016 Department of DefenseNavy
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