Award Data

Research is proposed for the development and implementation of state of the art, reduced order nonlinear aeroelastic models for multidisciplinary/multi-fidelity optimization problems. Highly efficient and accurate aeroelastic simulation tools will be constructed based upon the mathematical formalism of optimal prediction theory and a novel implementation of a filtered harmonic balance solution met ...

This award is funded under the American Recovery and Reinvestment Act of 2009 (Public Law 111-5). This Small Business Technology Transfer (STTR) Phase I project addresses unmet analysis needs of froth flotation, a separations process widely used in the mining industry to separate worthless gangue from desired mineral particles. The goal of this Phase I is the preparation of sensors that permit th ...

This Small Business Technology Transfer (STTR) Phase II project will develop and commercialize a novel Lithographic Gelcasting (LGC) manufacturing process for microdevices that is amenable for economical volume production. Molds will be made using photolithography and filled with nanoparticulate materials. The resulting parts will then be sintered and the photoresist removed. The objectives of the ...

This program is to develop multi-layered,light weight armor alloys systems that offer improved fragmentation and armor piercing performance as compared to any other monolithic structures. Such alloys and laminated configuration will be developed by utilizing advanced computational techniques to assist in the development of complimentary alloys that would provide an optimal combination of hardness ...

Future software platforms starting with today’s multicores will be massively parallel, offer unprecedented performance, and will be exceedingly difficult to program. In this project, we will work towards automatic development of high-performance software for these platforms. Specifically, we will design a tool that can computer-generate the performance critical components of software-defined rad ...

The proposed barium strontium titanate (BST) nanodielectric devices will combine some of the best features of bulk and thin-film based tunable dielectrics: low microwave losses, high tunability at high fields, the potential for low operating voltages, and less temperature dependent dielectric response. The miniaturization of devices and reduction of insertion losses requires developments of mater ...

CMU and Magnetics, A Division of Spang and Co. have developed a new high-saturation induction, high-temperature nanocomposite alloy for high-power inductors. This material has FeCo nanocrystals with an A2 or B2 structure embedded in an amorphous matrix. Field annealing resulted in a linear B-H response with a relative permeability of 1400, constant up to fields of 1.2 T. The material was used in ...

The key technical objective of the Phase I effort will be the successful development of lightweight compact structures that can be applied to vehicles, either as add-on structures or as an integral part of the vehicle. This will be accomplished through analysis, simulation, practical experience, intuition and experimentation, with the aid of artificial intelligence, primarily in the form of gen ...

The noise from the turbulent, hot, supersonic jets at take-offs and landings as well as high-Mach cruise at altitude dominates noise emanating from other powerplant components and has significant safety implications for launch personnel, as well as environmental impacts of noise pollution around military installation. Noise generation mechanisms of supersonic jets are quite complex and different t ...

Our Phase I program will extend and validate a high-speed engineering transitional model (ETM) using new CUBRC data sets (such as HIFIRE-1) of interest to the Air Force. The ETM is responsive to tunnel noise and wall heating, and predicts the overshoot in heat transfer observed in transitional data. The model solves PDEs for transition onset as well as for an intermittency parameter that blends th ...