Award Data

With the global reach of our US military and civilian population, with the threat of use of chemical and biological warfare, and the spread of deadly viruses in the world; it has become necessary to have containment options for large scale transport of hazardous/contaminated materials that meet the strict national, international and US Air Force standards for air transport. In this Phase I SBIR, P ...

ABSTRACT: ThermAvant proposes to design, model and empirically demonstrate Oscillating Heat Pipes for the acquisition, transport and rejection of waste heat generated from next-generation PA devices with high heat flux and high operating temperatures for use in spacecraft systems. Innovations to be investigated and experimented include hitherto unexplored working fluids and low thermal resistance ...

ABSTRACT:A chip carrier for high power density electronics made from low CTE materials and embedded with an oscillating heat pipe will be applied to a real world satellite electronics device to transform high heat flux (e.g. 100-300W/cm2) at the device package to a lower heat flux at the heat sink areas - and do so with minimal thermal resistance. Deliverables at conclusion of two-year effort will ...

ABSTRACT:Innovative Technology Applications Company, LLC proposes the development of an analytical tool that predicts jet noise and engine performance for current and future generations of supersonic two- and three-stream engines. The goal is to provide robust and reliable noise predictions in minutes that can be used for design optimization. The physics-based approach will be capable of addressin ...

ABSTRACT:The proposed research effort will develop passive Oscillating Heat Pipe (OHP) structural heat spreaders to attach to small, ultra-high heat flux devices (e.g., GaN power amplifiers) and dissipate their heat loads uniformly across the spreaders' relatively large heat sinking surfaces - and do so with minimal thermal resistance. The research team will design, model, fabricate, test, and ana ...

ABSTRACT:Increasing emphasis on affordability of military systems has led to a number of advances in airframe production. For example, high speed machining (HSM) has made it possible to fabricate thin structures that provide improved performance. However, near-surface plastic strains induced by HSM or surface treatments can lead to excessive component distortion such that the component requires re ...

ABSTRACT:This Phase II project will include the research, development, implementation and deployment of a method, new image quality indicators (IQIs) and software algorithms to automatically assist in the verification of computed radiography (CR) image quality for nondestructive testing (NDT) of military airframes.Compared to existing IQIs and methods, the new approaches will more comprehensively, ...

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 ...

The USAF recognizes that benefits to cold working fastener holes include significantly increased life of a structure subjected to fatigue loading. However, full realization of this potential from a maintenance and engineering standpoint is hindered by the fact that there is currently no adequate field technique for determining how well the material structure immediately surrounding the hole has re ...

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 ( ...