Award Data

Design and evaluate components for a new device for remotely releasing electronic tags that have been attached to marine animals with a focus on a novel approach for the release mechanism. Current methods for releasing tags include corrodible metal pins and mechanical devices for cutting plastic or steel wires. These methods are less reliable because the attachment wires and pins may prematurely ...

The SBIR Phase I proposal is designed to improve the high end temperature performance of Altairnano''''s nano Lithium titanate batteries and will develop an equivalent circuit model capturing the transient dynamics of Altairnano’s 50 Ah cell. Altairnano will study the effects of various materials and the interactions between them to determine the best electrode material combination in order to e ...

Andrews Space, Inc. proposes to test new high energy density propellant combinations and conduct a feasibility study on their applications. These propellants are enablers for use in high performance tactical missiles, high delta-V single stage vehicles such as a suborbital point to point vehicles, and compact high energy upper stages. Our Phase I approach is to develop stage and vehicle designs ...

The proposed approach for Phase I of this effort brings together two key items that are needed to work in concert with one another: advanced fatigue assessment methods and non-destructive inspection & detection techniques. Successful synthesis of these elements and the engineering disciplines behind them will provide an optimized and advanced method of taking full advantage of engineered residual ...

Ceramic Matrix Composites (CMCs) are emerging as mission-critical materials for a broad range of defense applications and among them, their utility for next-generation aero-turbine components are currently being pursued. SiC-based CMCs are leading candidates for this application due to their high strength, low density, and superior toughness at elevated temperatures. In this Phase I project, a new ...

High cost and poor environmental performance of CMCs are limiting their deployment in many defense applications. In particular, the JSF platform requires improved durability for a targeted CMC system which is already qualified and in production. Primary motivation for this Phase I effort is to reduce cost. CMCs, although known for their benefits of lightweight and better performance at elevated te ...

The Phase I objective is a conceptual design of a hyperspectral/multimodal fundus camera for assessing laser damage.  The premise to be ultimately proven in this project is that damage to the fundus, from laser irradiation, may be characterized and detected by reflectance spectra, and by measuring function such as flow and perfusion.  The system will incorporate an existing fundus camera model ( ...

The benefits provided by Belle Aerospace Corporation’s (BAC’s) proposed technology will reduce engine size, weight, acoustic signature, increase reliability and power output, while providing substantial fuel efficiency increases using load following engine control technology and other BAC proprietary innovations. These optimized improvements will provide great reductions in both; the initial l ...

The research objectives of Aiding Complex Decision-Making Through Augmented Reality (SBIR Phase 1) address real world issues found in complex, high-stress, mobile environments that require rich information in order to reduce error and make informed decisions. Such systems are made up of several interacting components requiring collaborative situational awareness in a dynamic environment. Complexit ...

Determining the hazard classification of new propellant formulations is important for transportation safety and storage concerns. To avoid costly grain redesign and additional testing, a model that adequately predicts the shock sensitivity, including the outcome of the Naval Ordnance Laboratory Large Scale Gap Test, of modern solid propellants is required. The goals of this proposal are to develop ...