| Last Name | Name | Awards | Contact | |
|---|---|---|---|---|
| Baum | Dr. Kurt Baum | 39 | Message | |
| Willer | Dr. Rodney L. Willer | 2 | Message | |
| Archibald | Thomas G. Archibald | 5 | ||
| Hong | Katrin C. Hong | 1 | ||
| Preston | Scott B Preston | 2 | ||
| Malik | Aslam Malik | 1 | ||
| Chapman | Robert D Chapman | 1 | ||
| Baum | Dr. Kurrt Baum | 1 | Message |
Phase 2 SBIR
The general objective of this program is to identify and develop synthesis routes for new fluorine-containing propellant component for solid rocket propellants which will lead to increased impulse density, long service life (> 20 years), increased specific impulse (Isp) relative to state-of-the-art propellants, and support a 1.3 hazard classific...
Phase 1 SBIR
The general objective of this program is to identify and develop synthesis routes for a new fluorine-containing propellant oxidizer for solid rocket propellants which will lead to increased impulse density, long service life (> 20 years), increased specific impulse (Isp) relative to state-of-the-art propellants, and support a 1.3 hazard classifi...
Phase 1 SBIR
The objective of this program is to synthesize routes a new fluorine-containing propellant component for solid rocket propellants which will lead to increased impulse density, long service life (> 20 years), increased specific impulse (Isp) relative to state-of-the-art propellants, and support a 1.3 hazard classification and insensitive munition...
Phase 1 SBIR
ABSTRACT: The DoD requires increased performance and increased density solid propellants for use on boost, strategic and tactical missile systems. Current ingredients are incapable of imparting the desired performance and insensitivity. New oxidizers are needed to increase the energy and density of formulated solid propellant mixtures while me...
Phase 2 STTR
Institution: University of Idaho
The objective of this program is to design advanced energetic oxidizers superior to ammonium perchlorate (AP), develop methods for their preparation, and characterize the products. The overall goal of the Phase II program with options is to make the technology ready for commercialization
Phase 1 STTR
Institution: University of Idaho
The objective of this program is to design advanced energetic oxidizers superior to ammonium perchlorate (AP), develop methods for their preparation, and characterize the products.
Phase 2 SBIR
Improved solid performance is needed to meet Integrated High Payoff Rocket Propulsion Technology (IHPRPT) Program goals. New hydroxy-terminated oligomers for use in polyurethane binders have been synthesized under Phase I that provide performance advantages compared to currently used propellant components and have good low-temperature and high-t...
Phase 1 SBIR
Improved solid performance is needed to meet Integrated High Payoff Rocket Propulsion Technology (IHPRPT) Program goals. The principal objective of this program is to synthesize new hydroxy-terminated oligomers for use in polyurethane binders. These novel oligomers will contain trinitromethyl groups to provide major performance advantages compa...
Phase 1 SBIR
Improved solid performance is needed to meet Integrated High Payoff Rocket Propulsion Technology (IHPRPT) Program goals. Oxidizers more energetic than currently available materials are needed to meet these goals. The objective of this program is to prepare new nitro-substituted heterocyclic oxidizers using a novel synthesis approach. If the me...
Phase 1 SBIR
Improved solid performance is needed to meet Integrated High Payoff Rocket Propulsion Technology (IHPRPT) Program goals. The principal objective of this program is to synthesize new hydroxy-terminated oligomers for use in polyurethane binders. These novel oligomers will contain gem-dinitro groups to provide performance advantages compared to cu...
