A Bond Centered Approach to Energetic Performance and Sensitivity
ORAL
Abstract
Handling sensitivity, as measured by the drop-weight impact apparatus, is frequently
utilized to establish safety characteristics for new explosives. Despite decades of research
investigating handling sensitivity properties for energetics, it is still difficult to determine what
molecular properties are most critical. In this presentation we discuss trends in impact
sensitivity will be discussed with respect to energetic functional groups and overall molecular
bonding. Specifically, a series of over 230 nitrate esters and alkyl nitro energetics were analyzed
for the atomic connectivity of the energetic functional group. Primary nitrate esters were found
to be less sensitive than secondary, likely a reflection of the weaker trigger linkage in secondary
carbons. This trend is less pronounced in C-Nitro energetics, owing to the strong C-NO2 linkage.
To examine the impact of non-energetic functional groups, a new parameter encompassing all
of a molecule’s bonds, the average bond strength, was calculated for 50 energetics of all
classes. A strong trend between increasing average bond strength and decreasing sensitivity is
observed. Finally, measured sensitivity data is compared to the specific heat of explosion, Q, to
identify outliers in the overall trends of increasing sensitivity with increasing performance.
utilized to establish safety characteristics for new explosives. Despite decades of research
investigating handling sensitivity properties for energetics, it is still difficult to determine what
molecular properties are most critical. In this presentation we discuss trends in impact
sensitivity will be discussed with respect to energetic functional groups and overall molecular
bonding. Specifically, a series of over 230 nitrate esters and alkyl nitro energetics were analyzed
for the atomic connectivity of the energetic functional group. Primary nitrate esters were found
to be less sensitive than secondary, likely a reflection of the weaker trigger linkage in secondary
carbons. This trend is less pronounced in C-Nitro energetics, owing to the strong C-NO2 linkage.
To examine the impact of non-energetic functional groups, a new parameter encompassing all
of a molecule’s bonds, the average bond strength, was calculated for 50 energetics of all
classes. A strong trend between increasing average bond strength and decreasing sensitivity is
observed. Finally, measured sensitivity data is compared to the specific heat of explosion, Q, to
identify outliers in the overall trends of increasing sensitivity with increasing performance.
*LANL LDRD
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Publication: M. J. Cawkwell, A. C. Burch, J. V. Davis, S. R. Ferreira, N. M. Lease, F. W. Marrs, and V. W. Manner; "Understanding explosive sensitivity with effective trigger linkage kinetics" Submitted to PEP.
Presenters
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Jack Davis
- Los Alamos National Laboratory