As the need for more energetic solid propellants continues, a number of problems arises. One of these is the tendency of high energy propellants to transition from burning (deflagration) to detonation in regions where the propellant is present in small particle sizes; e.g., in case bonding areas of a motor after a rapid depressurization causes a shear zone at the bond interface as the stressed propellant and motor case relax at different rates. In an effort to determine the susceptibility of propellants to high strain rate break up (friability), and subsequent DDT, the propulsion community uses the shotgun/relative quickness test as one of a number of screening tests for new propellant formulations. Efforts to standardize test techniques and equipment are described.
Report on JANNAF panel on shotgun/relative quickness testing
1980-12-01
Conference paper
No indication
English
NTRS | 2015
|NTIS | 2015
|JANNAF Lessons Learned Panel Discussion
NTRS | 2010
|Quickness defines this process
British Library Online Contents | 2007