Award Data

The development and study of micro-electromechanical systems, or MEMS, has advanced significantly over the years to the point where MEMS are demonstrating a vast potential for utilization within DoD programs. Planned military missile systems are being driven to be highly maneuverable and agile, a low radar cross section, and for carriage in weapons bays with very limited internal volume. Control ...

A new class of miniaturized munitions will play a key role in future warfighting scenarios by providing precision strikes to an array of high-value targets. To meet this need, weapons such as the Small Bomb System (SBS), Low Cost Autonomous Attack System (LOCAAS) and Miniature Air Launched Decoy (MALD) represent a new generation of small, low-cost weapon systems currently under development. Depl ...

While circuit simulation tools have revolutionized the art of RF and microwave design, these tools are only as good as the component values they employ. The increased demand for reduced design cycles and easier to manufacture systems has generated the need for accurate and reliable tools. Current circuit simulation tools use component models that do not always account for parasitic coupling, non ...

Advanced Cooling Technologies, Inc. (ACT), supported by Texas A&M University (TAMU), proposes to develop a Momentum-driven Vortex Separator (MVS) technology for vapor and liquid management for the advanced vapor cycle Thermal Management Systems (TMS). The MVS developed at TAMU is a single component, two-phase management device that has been successfully demonstrated in various acceleration environ ...

The goal of this SBIR is the enhancement of the current state-of-the-art combustion instability analysis tools.  The planned enhancement is focused on capturing the effects of injection element distribution and the inclusion of substantial film cooling and diluent injection.  These characteristics are extremely important in the design of high-pressure oxygen rich staged combustion (ORSC) engines ...

Advanced polymer matrix composite materials offer the potential to reduce the weight of 21st century aircraft. However, a general methodology to assess the initial and lifetime response of complex material architectures with growing damage has not been demonstrated. The goal of this research plan proposed by Materials Sciences Corporation is to develop engineering analysis software that can predi ...

In this proposal, we describe an innovative application of high thermal conductivity materials, to make a monolithic cooling device which is passively cooled but can handle heat flux of the order of 1200 W/cm2. Also, the core technology is extendible to any convective cooling and will provide similar benefit there too. BENEFIT: Enhancement in passive cooling to reach the capability to cool high p ...

A new material, diamond-copper composite, is proposed for the evaporator of a copper-water heat pipe. The composite offers two benefits; very high thermal conductivity and CTE in the same range as semiconductor material. These properties enable heat pipes that can be directly attached to the highest power dies. The high conductivity layer spreads the heat, lowering the flux from 1000 W/cm2 to 100 ...

During Phase I, we will develop the technology for a field use instrument to determine the residual stress, fatigue damage and remaining service life for aging metal structures. The technology will be based on a state-of -the-art wide-angle x-ray detector recently developed at ATMI. The life span estimation will use the measured micro-defect density to compare to a paramedic life span map based ...

This document is a Phase I SBIR technical and cost proposal submitted to the US Air Force by GDP Space Systems, a division of Delta Information Systems, Inc., in response to SBIR Solicitation Topic Number AF98-275. The purpose of this proposed program is to investigate appropriate technologies and define the hardware and software requirements for a state-of-the-art PC-based Advanced Telemetry Pr ...