Award Data

This program will develop and demonstrate a novel modular, continuous synthesis platform that can be rapidly reconfigured to produce multiple classes of energetic materials. Continuous synthesis of energetic materials has clear safety advantages, but current approaches are slow to realize due to long process development timelines. The proposed program will develop a system integration and control ...

This Phase II work will develop a methodology for radiation hardness testing of microelectronics. This methodology includes understanding of device physics and irradiation sources, as well as utilization of irradiation facilities and dosimetry of irradiated microelectronics. The methodology necessarily incorporates design of testing procedures, development of experimental setups including microele ...

In Phase II, the Attollo team proposes to investigate the growth and fabrication techniques of LWIR SLS and associated variants to meet the target objectives. Our plan is to push the envelope further by increasing the absorption coefficient, improving the material quality and carrier lifetime, and reducing any surface leakage contribution from detector fabrication. At the end of Phase II, we expec ...

Ultra-Wide bandgap materials such as GaN and Ga2O3 are emerging as preferred materials in high power applications due to their high breakdown field. The thermal dissipation is poor in both those materials due to low thermal conductivity. A high thermal conductivity material such as SiC is used as a growing substrate, however, the thermal conductivity is still limited due to defects in the interfac ...

The harsh environment posed by hypersonic flight makes antenna design challenging due to extreme temperature exposure coupled with often competing mechanical/aero and RF performance requirements. FIRST RF proposes an advancement to its numerous conformal antenna technologies utilizing additive manufacturing of dielectric materials. This approach will decouple the competing RF and mechanical requir ...

Estes Energetics and Battelle Memorial Institute will apply a fast, affordable manufacturing technology—proven to Technology Readiness Level (TRL) 4 and Manufacturing Readiness Level (MRL) 4—that manufactures a layer of carbon-carbon directly on composite structures without requiring use of an autoclave or densification process holds, resulting in reduced manufacturing time while improving com ...

The innovation proposed here is a novel carbon-carbon composite (CCC) manufacturing method based on polymer infusion and polymerization (PIP) using a novel precursor polymer with exceptionally high char yields. This results in a material that has the promise of excellent quality and mechanical properties, while offering the breakthrough advantages of (1) greatly reduced or eliminated need for back ...

This topic identifies the need creating a Modeling and Simulation (M&S) development and execution environment that significantly decreases the time to execute statistically significant batches of stochastic simulation runs for the purpose of estimating scenario output and outcome distributions while improving statistical knowledge of the outcome distributions. The strategy sought by this topic is ...

To advance simulation techniques, such as high-fidelity computational fluid dynamics (CFD), to accelerate maturation of DACS design through design-time trade studies, there is a need for new, test-validated models that improve both computational performance and the accuracy of the reacting jet in hypersonic crossflow simulations. ATA and CUBRC (a research institution with leading expertise in aero ...

Seed Innovations (Seed) and the University of Colorado at Denver (CU Denver) apply our combined experience in artificial intelligence, machine learning, model interpretation and human-machine teaming to research and develop a prototype Deep Reinforcement Learning (DRL) explainability platform. This prototype solution, named ‘Reveal’, seeks to empower decision-makers by providing them with mean ...