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The Award database is continually updated throughout the year. As a result, data for FY24 is not expected to be complete until March, 2025.

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.

The SBIR.gov award data files now contain the required fields to calculate award timeliness for individual awards or for an agency or branch. Additional information on calculating award timeliness is available on the Data Resource Page.

  1. Vectored Force Suspension Helmet Liner (VFSHEL)

    SBC: HY-TEK MANUFACTURING CO., INC.            Topic: N142085

    During Phase I work under MARCORSYSCOM Contract Number M67854-15-C-6512, HMC performed engineering design work, material selection, prototype fabrication, LS Dyna based Finite Element Analysis (FEA) and performance optimization of an innovative suspension helmet liner for the United States Marine Corps (USMC) Enhanced Combat Helmet (ECH). The proposed Vectored Force Suspension Helmet Liner (VFSHEL ...

    SBIR Phase II 2016 Department of DefenseNavy
  2. Light-Weight, Solar Cells with High Specific Power and Conversion Efficiency

    SBC: MICROLINK DEVICES INC            Topic: N14AT003

    MicroLink Devices in collaboration with University of Notre Dame will develop composite lightweight, high-efficiency, epitaxial lift-off (ELO) inverted metamorphic (IMM) triple junction solar cells ideally suited for retrofitting current generation UAVs and integration with next generation platforms in order to substantially increase mission duration beyond current battery only technologies. Micro ...

    STTR Phase II 2016 Department of DefenseNavy
  3. Guided Missile Submarine SSGN Seawater System Antifouling

    SBC: HOWELL LABORATORIES INC            Topic: N161041

    Howell Laboratories, Inc. (HLI) is proposing a seawater Electrolytic Chlorine Generator (ECG) and will leverage our considerable experience developing and qualifying ECGs for the Navy to meet the high integrity standards of submarine sea water systems, and environmental standards. The cost savings will be compared to the current cost of cleaning SSGNs and methods used on the Virginia class and is ...

    SBIR Phase I 2016 Department of DefenseNavy
  4. Affordable Manufacturing of Refractory Metal Components

    SBC: SCIAKY INC            Topic: N142125

    Electron Beam Additive Manufacturing (EBAM) is a layer additive manufacturing technology capable of producing refractory metal (C103, Ta-10W) components from a computer generated 3D CAD model. These near net shaped preforms utilize significantly less material and require substantially less machining than the current process being used.

    SBIR Phase I 2016 Department of DefenseNavy
  5. 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
  6. Sacrificial Fiber Anisotropic Recuperator (SFAR)

    SBC: CU AEROSPACE L.L.C.            Topic: N161062

    The mass and cost of low temperature Joule-Thomson and Brayton cryocoolers can be greatly reduced with a better recuperator configuration. CU Aerospace (CUA) and team partner Lockheed Martin Space Systems Company (LMSSC) propose to develop a robust, anisotropic recuperative heat exchanger capable of excellent heat exchange efficiency with low cost and low mass. This technology relies on 3D weaving ...

    SBIR Phase I 2016 Department of DefenseNavy
  7. Additive Manufacturing Development of Naval Platform Heat Exchangers

    SBC: QUESTEK INNOVATIONS LLC            Topic: N161071

    In this SBIR program, QuesTek Innovations LLC will apply its computational materials methodology to develop ICME tools that directly address the unique complexity of additive manufacturing (AM) processing. CALPHAD-type modeling along with materials property and process evaluation will be applied to make an intelligent selection of commercial heat exchanger (HX) alloy(s), or composition optimizatio ...

    SBIR Phase I 2016 Department of DefenseNavy
  8. Manufacturing Design of Bio-based Ceiling Tiles using Nanocellulose

    SBC: REVOLUTION RESEARCH, INC.            Topic: 15NCER06

    Suspended ceiling tiles are widely used in commercial and residential construction because they offer flexibility and easy access to utilities. Most of the available tiles absorb water, resulting in sagging, staining, and mold/mildew growth. They also contain potentially hazardous chemicals and release airborne fibers when broken or cut. Existing tiles are not durable, requiring frequent replaceme ...

    SBIR Phase I 2016 Environmental Protection Agency
  9. Harvestable Energy System for Use in Covered Locations

    SBC: MICROLINK DEVICES INC            Topic: N153124

    The objective of the proposed project is to develop a lightweight, robust, and modular system, capable of harvesting solar energy in areas with dense foliage cover in an effective manner. The system proposed will be able to reach a height of 100 feet above an average tropical forest canopy to deploy a solar array capable of generating 250 W under AM1.5G 1-sun illumination. In this proposal, MicroL ...

    SBIR Phase I 2016 Department of DefenseNavy
  10. 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
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