Award Data

Highly fluorinated, nanoscaled polymers were developed in a Phase I program (Contract No. W81XWH-04-C-0132) as an oxygen-carrying treatment for hemorrhagic shock in battlefield environments. These were highly soluble in water and buffered electrolyte solution (up to roughly 50% weight/volume) and were thermally stable up to 167 °C. Mixing the polymers with dilute canine blood significantly enhanc ...

A low-risk, high-confidence, CSTAT-compatible HIFU hemostasis system that can be operated remotely was developed during Phase I to improve battlefield medicine to save lives. The system is based on a 23 channel annular HIFU phased array with a built-in co

While guidelines for stable combustion in certain engine cycles and propellant combinations exist; there is no proven, mechanistic predictive model, particularly for high-performance liquid hydrocarbon-fueled engines. IN Space and Purdue propose to fill this critical need by developing a “testbed” consisting of 1) a predictive combustion stability design tool to mitigate the risk of generating ...

An innovative, high-speed electromagnetic-wave-detection system based on broadband, non-intrusive, miniaturized electro-optic (EO), magneto-optic (MO), and electro-optic voltage (EOV) sensors will be developed for evaluating the effects that pulsed electromagnetic (EM) waves have on specific components of electronic systems. The suite of optically-interrogated sensors, which may be positioned with ...

An innovative, optically-interrogated test instrument, based on broadband, non-intrusive, miniaturized electro-optic (EO), magneto-optic (MO), and electro-optic voltage (EOV) sensors, will be developed for evaluating the operation of, and the electromagne

The proposed research of Tienta Sciences and Purdue University focuses on the development of novel, tunable super-lenses for nanoscale optical sensing and imaging of bio-molecules. We will describe how to design near-field superlens with controlled freque

ABSTRACT: This proposal is concerned with the development of a novel failure initiation and progressive failure analysis modeling method for advanced composite structures, including the analysis of selected structural joints utilizing a statistically based micromechanics model embedded in a 3D non-linear finite element code. The method accounts for the interaction between out-of-plane failure and ...

The US Army has underscored the importance of developing more effective obscurant material for shielding US soldiers and their equipment from visible, microwave, and infrared observation. Current separation techniques tend to allow the nano-particles to agglomerate at higher density than desired for efficient obscurant devices. ElectroDynamic Applications, Inc. (EDA) in partnership with the Univ ...

The objective of this program is to build upon many decades of experience with magnetic flowmeters to develop a next-generation system to measure the burning surface admittance of high-energy-density solid propellants at high frequencies and pressures. Using the results of research on solid propellant rocket motor combustion instability from the past fifty years, one can directly measure the ac ...

Michigan Aerospace Corporation proposes to develop an optical MEMS based skin friction sensor specifically designed for hypersonic applications. This instrument will be capable of shear stress resolutions as small as 0.01 Pa, have a high dynamic range, and data rates in excess of 100 Hz. The sensor will be compact and tolerant of the extreme environmental conditions of hypersonic propulsion test f ...