Award Data

We propose to realize a new class of microbolometer FPA technology with significantly reduced 1/f noise by replacing the sensing material (e.g. VOx) with colossal magnetoresistive (CMR) oxides. The program uniquely combines Agiltron's experience in novel IR imager development and leading academic research on CMR at Los Alamos National Lab (LANL). The LANL Team has developed breakthrough process ...

We propose to realize a new class of microbolometer FPA technology with significantly reduced 1/f noise by replacing the sensing material (e.g. VOx) with colossal magnetoresistive (CMR) oxides. The program uniquely combines Agiltron’s experience in novel IR imager development and leading academic research on CMR at Los Alamos National Lab (LANL). The LANL Team has developed breakthrough proce ...

Structural reactive materials (SRMs) or multifunctional energetic materials offer the ability to combine the high energy release rates of traditional high explosives with structural strength.When successfully formulated they can lead to light-weight, high-performance and hitherto inaccessible designs of munitions. The key feature of structural energetic materials (SEMs), perhaps even more so than ...

Jet engine disk components are increasingly subjected to higher operating temperatures. To meet the demands of increasing thrust and higher operating temperatures, a newer generation of nickel based superalloys such as LSHR, Alloy 10, Rene104 and RR1000 are being processed with dual microstructure distributions. Fine grain, high strength, fatigue resistant bore properties are contrasted with co ...

The main objective of the Phase II work is to enhance the FORECAST algorithms developed in Phase I, extend them to 3D in the case of multi-rate sensors and significant wind effects, develop effective tuning procedures, and evaluate the performance of the FORECAST system on test data. In order to achieve these objectives, we plan to carry out the following tasks: (i) Extend FORECAST algorithms to 3 ...

The Giner, Inc. Phase II program will implement a the Hybrid Sensor Array (HSA™) working prototype based on sensor development and pulsed operating conditions developed in Phase I. The HSA™ uses combinations of semiconductor doped metal oxide materials developed at Giner, Inc. together with organometallic material developed at the University of California at San Diego (UCSD). The electronic ...

The Giner, Inc. Phase II program will implement a the Hybrid Sensor Array (HSA) working prototype based on sensor development and pulsed operating conditions developed in Phase I. The HSA uses combinations of semiconductor doped metal oxide materials developed at Giner, Inc. together with organometallic material developed at the University of California at San Diego (UCSD). The electronic proper ...

The primary goal of this STTR program is to develop high fidelity LDLP software module that can predict stiffness and damping forces over the ranges of amplitude, frequency, and temperature appropriate for comprehensive modeling of helicopters. The LDLP module will focus on enabling accurate prediction of the onset of both air and ground resonance, as well as the fatigue loads that would arise due ...

In the Phase I program Physical Sciences with our partner The Harvard Microrobotics Laboratory, used insect observations, numerical simulations, and flight-tests to demonstrate that a collision-tolerant micro-air-vehicle (MAV) is feasible. Our analysis shows that insects achieve collision robustness, in part, because of their physical geometry, multi-mode energy absorbing structures, and ability ...

Physical Sciences Inc. and the University of Delaware propose a novel self-healing, damage-sensing, reinforced polymer composite concept for use in degradation-resistant structural applications. In Phase I we investigated the feasibility of a microcapsule-based self-healing system and a damage-sensing functionality. The objective of Phase II is to develop a reinforced composite material that incor ...