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Extremely Insensitive Reactive Liner
Navy SBIR FY2010.3
| Sol No.: |
Navy SBIR FY2010.3 |
| Topic No.: |
N103-199 |
| Topic Title: |
Extremely Insensitive Reactive Liner |
| Proposal No.: |
N103-199-0020 |
| Firm: |
Energetic Materials & Products, Inc.
1413 Brandi Lane
Round Rock, Texas 78681 |
| Contact: |
Dennis Wilson |
| Phone: |
(512) 380-1992 |
| Abstract: |
The program goal is to develop, test and evaluate a group of extremely insensitive reactive materials (RM) that can be used in selectable output warheads. This novel class of RMs is based upon our current family of aluminized perfluoropolyether, non-ideal explosives (APEX). APEX compositions are shock initiated, but unlike conventional HEs, the reaction rate and duration can be specifically tailored by varying the shock strength and duration. The sensitivity of the new RMs will be controlled through the use of novel fluorine-oxygen molecules with different shock dissociation levels and reactive metals with different particle sizes and activation energies. A key advantage of these RMs is their high energy-density and gas production, which is desirable for enhanced target damage. The program contains both fundamental experiments, modeling and numerical simulations to help explain and interpret the data and understand the underlying chemistry and physics. After fundamental experimentation and screening, a few outstanding RMs will be selected for performance testing with different shock initiation schemes. The work plan contains aggressive goals and multiple tasks, made possible by leveraging previous results (in technically aligned programs), existing diagnostics and data to efficiently screen innovative RMs. |
| Benefits: |
Examples of dual-use military and commercial applications, the proposed concept could be used for: (1) low collateral damage explosive defeat of IEDs and VBIEDs for domestic bomb squads; (2) novel energetic materials and initiation mechanisms for down-hole perforation operations in the oil production industry; and (3) controlled collateral effects for explosive demolition operations. |
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