Summary of Booster Development and Qualification Report

Francois, Elizabeth G.; Harry, Herbert H.; Hartline, Ernest L.; Hooks, Daniel E.; Johnson, Carl E.; Morris, John S.; Novak, Alan M.; Ramos, Kyle J.; Sanders, Victor E.; Scovel, Christina A.; Lorenz, Thomas; Wright, Mark; Botcher, Tod; Marx, Erin; Gibson, Kevin

doi:10.2172/1044135

Title: Summary of Booster Development and Qualification Report

Technical Report · Thu Jun 21 00:00:00 EDT 2012

DOI:https://doi.org/10.2172/1044135· OSTI ID:1044135

Francois, Elizabeth G. ^[1]; Harry, Herbert H. ^[1]; Hartline, Ernest L. ^[1]; Hooks, Daniel E. ^[1]; Johnson, Carl E. ^[1]; Morris, John S. ^[1]; Novak, Alan M. ^[1]; Ramos, Kyle J. ^[1]; Sanders, Victor E. ^[1]; Scovel, Christina A. ^[1]; Lorenz, Thomas ^[2]; Wright, Mark ^[3]; Botcher, Tod ^[4]; Marx, Erin ^[5]; Gibson, Kevin ^[5]

Los Alamos National Laboratory
LLNL
AWE
PANTEX
NSWC-IHDIV

This report outlines booster development work done at Los Alamos National Laboratory from 2007 to present. The booster is a critical link in the initiation train of explosive assemblies, from complex devices like nuclear weapons to conventional munitions. The booster bridges the gap from a small, relatively sensitive detonator to an insensitive, but massive, main charge. The movement throughout the explosives development community is to use more and more insensitive explosive components. With that, more energy is needed out of the booster. It has to initiate reliably, promptly, powerfully and safely. This report is divided into four sections. The first provides a summary of a collaborative effort between LANL, LLNL, and AWE to identify candidate materials and uniformly develop a testing plan for new boosters. Important parameters and the tests required to measure them were defined. The nature of the collaboration and the specific goals of the participating partners has changed over time, but the booster development plan stands on its own merit as a complete description of the test protocol necessary to compare and qualify booster materials, and is discussed in its entirety in this report. The second section describes a project, which began in 2009 with the Department of Defense to develop replacement booster formulations for PBXN-7. Replacement of PBXN-7 was necessary because it contained Triaminotrinitrobenzene (TATB), which was becoming unavailable to the DoD and because it contained Cyclotrimethylenetrinitramine (RDX), which was sensitive and toxic. A LANL-developed explosive, Diaminoazoxyfurazan (DAAF), was an important candidate. This project required any replacement formulation be a drop-in replacement in existing munitions. This project was timely, in that it made use of the collaborative booster development project, and had the additional constraint of matching shock sensitivity. Additionally it needed to be a safety improvement, and a performance improvement, especially at cold temperatures. The requirements of this project necessitated novel test development and a different approach to ranking booster qualities. Results of this project have been documented to the DoD and the relevant portions are included within. The third section of this booster report outlines testing related to main charge initiation merit. Initiability can be evaluated by looking at critical diameter, run distance, and shock sensitivity. Once a booster is initiated, it needs to be powerful enough to initiate the main charge symmetrically and evenly. Main charge initiability is evaluated directly by observing detonation wave symmetry, curvature, and first break out over the surface of a charge. Furthermore it must be insensitive to accidents and insults, and safe and reliable across a range of temperatures. These effects, tests, and results will be discussed individually in the context of DAAF and other explosives similarly tested. The last section provides a conclusion and summary of our experimental work and recommendations for the path forward. References and additional supporting documentation and results are provided in the appendices at the end of this report.

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Research Organization:: Los Alamos National Laboratory (LANL), Los Alamos, NM (United States)

Sponsoring Organization:: DOE/LANL

DOE Contract Number:: AC52-06NA25396

OSTI ID:: 1044135

Report Number(s):: LA-UR-12-22394; TRN: US201214%%643

Country of Publication:: United States

Language:: English

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45 MILITARY TECHNOLOGY, WEAPONRY, AND NATIONAL DEFENSE
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Title: Summary of Booster Development and Qualification Report

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