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The Award database is continually updated throughout the year. As a result, data for FY21 is not expected to be complete until September, 2022.

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. Meshfree-Based Fracture Evaluation and Design Tool for Welded Aluminum Ship Structures

    SBC: Advanced Dynamics, Inc.            Topic: N10AT041

    The aluminum alloys have low density, relatively high strength, and high strength-to-weight ratio, which brings some major advantages in marine structure design, fabrication, and operations. However, marine ships are subjected to a complex and severe loading, and the typical failure mode of aluminum under extreme dynamics loading such as wave slamming and high velocity impact is ductile fracture. ...

    STTR Phase I 2010 Department of DefenseNavy
  2. Deterministic and Statistical Characterization of the Impact of Control Surface Freeplay on Flutter and Limit-Cycle Oscillation (LCO) using Efficient

    SBC: Advanced Dynamics, Inc.            Topic: N10AT003

    Research is proposed for the development and implementation of state of the art computational and experimental tools for the investigation of the impact of control surface freeplay on the flutter and limit cycle oscillation characteristics of two-dimensional and three-dimensional wings in subsonic and transonic flow. Highly efficient and accurate aeroelastic simulation tools will be constructed ba ...

    STTR Phase I 2010 Department of DefenseNavy
  3. Multiscale Modeling and Analysis of Foreign Object Damage in Ceramic Matrix Composites with the Material Point Method

    SBC: Advanced Dynamics, Inc.            Topic: N10AT010

    This Small Business Technology Transfer Phase I project is aiming at developing and implementing a multiscale composite model to predict the ceramic matrix composite (CMC) response to the impact loading by foreign objects. In particular, the physics-based model will be applied to describe the multiscale foreign object damage (FOD) phenomena of CMCs due to the complex nature of impact dynamics coup ...

    STTR Phase I 2010 Department of DefenseNavy
  4. STOCHASTIC MUTISCALE/MULTISTAGE MODELING OF ENGINE DISKS

    SBC: Advanced Dynamics, Inc.            Topic: N10AT028

    Turbine disks are amongst the most critical components in aero- and naval-vessel engines. They operate in a high pressure and temperature environment requiring demanding properties. Nickel-based supperalloys which have high creep and oxidation resistance at high temperatures are widely used as the material of turbine disks. The elevated-temperature strength of this supperalloy and its resistance t ...

    STTR Phase I 2010 Department of DefenseNavy
  5. Development of Surface Reaction Mechanism for C-SiC-SiO2-Rubber Composite Oxidation in Extreme Oxidizing Condition

    SBC: CFD Research Corporation            Topic: N10AT005

    The purpose of this STTR is to develop comprehensive detailed kinetics for oxidation of C-SiC-SiO2-rubber in extreme oxidizing environment. This material is used as a coating on the outer surface of Navy weapon systems. In order to predict the fate of this material under extreme conditions and mitigate the degradation of the coating, a comprehensive oxidation mechanism is required. In Phase I, CFD ...

    STTR Phase I 2010 Department of DefenseNavy
  6. Lightweight Layered Protection Systems for Missile Launchers and Canisters

    SBC: Corvid Technologies LLC            Topic: N10AT018

    The objective of this proposed effort is to leverage state-of-the-art modeling and simulation tools to predict and assess the performance of a novel layered material system as protection for high-value missiles when deployed in launchers and canisters. The physics-based computational tools developed and used by Corvid allow for complex material interactions to be captured to provide an understandi ...

    STTR Phase I 2010 Department of DefenseNavy
  7. Prediction of the Full-Scale Cook-off Response Based on Small-Scale Testing

    SBC: Corvid Technologies LLC            Topic: N10AT011

    The objective of this proposed effort is to continue the development of Corvid’s existing modeling and simulation framework to provide an innovative methodology used to predict the response of full-scale weapons systems to fast cook-off (FCO) and slow cook-off (SCO). Ammunition presents a special problem where no reliable and inexpensive sub or small scale testing capability has been identified. ...

    STTR Phase I 2010 Department of DefenseNavy
  8. Graded-Composition Refractory Coatings for Protection of Cu-Rails for Electromagnetic Launchers

    SBC: Engineered Coatings, Inc.            Topic: N10AT025

    The Navy is developing an electromagnetic (EM) launcher for long-range naval surface-fire-support. Severe operating conditions of the EM system place stringent requirements for materials, including high current and magnetic fields, high temperatures, contact with liquid metals, high stress/gouging from balloting contacts and high-speed-sliding electrical-contact with an Al armature. Engineered Coa ...

    STTR Phase I 2010 Department of DefenseNavy
  9. Miniature, Portable, Device to Detect and Monitor Coagulopathy

    SBC: Enterprise Sciences, Inc.            Topic: N10AT043

    The objective of this proposal is to demonstrate the feasibility of a new thromboelastograph (TEG)-like instrument that has the same basic capabilities as the TEG – that is to say, capabilities of monitoring in vitro the kinetics, strength, and stability of clot formation in blood samples that are clot induced – but which is miniaturized, highly portable, rugged, and insensitive to adverse env ...

    STTR Phase I 2010 Department of DefenseNavy
  10. Real-time In-situ Adaptation of Decision Parameters for Undersea Target Tracking in a Sensor Field

    SBC: Intelligent Automation, Inc.            Topic: N10AT038

    Network-centric command and control of complex military missions (e.g., anti-submarine warfare, collaborative mine hunting, etc.) calls for cost-effective designs that can dynamically tradeoff multiple conflicting objectives. Often these optimizations have to be carried out at a higher level, and the associated control directives have to be disseminated down to a distributed system, thereby, influ ...

    STTR Phase I 2010 Department of DefenseNavy
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