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 ...

The technology, theory and fabrication of artificial materials and metamaterials have seen impressive progress in the last few years, and various applied fields have benefited of the great flexibility of electromagnetic response that metamaterials may provide at microwaves, infrared (IR) and/or optical frequencies. Negative-refractive and zero-permittivity metamaterials have indeed been proposed f ...

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 ...

Caldera Pharmaceuticals proposes to develop a highly metal-selective system to maintain iron concentrations in the body at optimal levels to prevent infections. The system will control iron without the loss of other essential micronutrients; loss of micronutrients is the cause of toxicity in most chelation systems. Metal selectivity and the corresponding safety for use is the key difference betwee ...

Antibiotic resistance is a major concern for both military and civilian populations. The US FDA reports that about 70 percent of bacteria that cause infections in hospitals are resistant to at least one drug. Caldera Pharmaceuticals proposes to develop novel antibacterials for the control of bacterial pathogens that are problematic for the military, focusing on resistance due to biofilms. Calderaâ ...

In this STTR program, CFDRC, in collaboration with the University of Idaho, proposes to develop some novel high-performance polynitrogen energetic materials for propellant applications. The proposed materials contain amine substituted tetrazole-based heterocyclic cations. In order to enhance the energy content and stability further, they are combined with energetic anions. These anions will have ...

While DNS of complex flow phenomena is a routine practice nowadays, the analysis tools lack the sophistication to utilize the abundance of data generated, for they are devoid of physics-based data extraction and feature-detection protocols. The current effort proposes an automated and intelligent co-processing data-mining framework, in the form of an API, that detects and tracks flow features of s ...

The design of future hypersonic vehicles requires detailed understanding of flow regimes ranging from rarefied to continuum. Moreover, hypervelocity flows are characterized by high temperatures, excitation of vibrational level of molecules, nonequilibrium dissociation, and ionization. The goal of this project is to develop unified kinetic/continuum solution methods with proper domain decompositio ...

The objective of the proposed research is the demonstration of an optimized, planar-constrained Ionic Polymer-Metal Composite (IPMC) under the influence of a low, O(10V), voltage signal as a conformal surface capable of actuation of a laminar/transitional boundary layer for the goals of transition and/or separation control. The material will be modeled using standard techniques for analyzing a st ...

Gradient Technology in conjunction with Professor M. Hillmyer of the Department of Chemistry at the University of Minnesota proposed to develop advanced technology to recover and convert the explosive and urethane binder found in plastic bonded explosives. This technology provides a unique reclamation, recovery, and reuse opportunity for dramatically reducing the disposal cost of technology munit ...