Study on the energy density of gunpowder heat source

@article{Lu2011StudyOT,
  title={Study on the energy density of gunpowder heat source},
  author={Gui E Lu and Wen Ping Chang and Jin Yong Jiang and Shi-guo Du},
  journal={2011 International Conference on Materials for Renewable Energy \& Environment},
  year={2011},
  volume={2},
  pages={1185-1187}
}
  • Gui E Lu, W. Chang, Shi-guo Du
  • Published 20 May 2011
  • Materials Science
  • 2011 International Conference on Materials for Renewable Energy & Environment
In order to reapply the waste energetic materials as welding heat source, in this article, the energy densities of several types of gunpowder were calculated with the equation of energy density. The results show that the energy densities of powders are very low, which are impossible to weld metal. Otherwise, the effects of aluminium powder and thermite on the energy density of gunpowder were investigated, the results show that the effects of aluminium powder and thermite are different, to the… 

Tables from this paper

Compact laser altimeter dedicated to drone ballistic carriers
In this paper, we report the results of investigations on the drone ballistic carriers being developed by our research team and we address specifically the concept of compact laser altimeter

References

SHOWING 1-6 OF 6 REFERENCES
Feasibility Study of Reapplication of Waste Propellants as Welding Heat Source
In this article, the combustion properties of several types of propellants and configuration of welding rod have been researched. The results show that it is feasible that reapplication of waste
The reapplication of energetic materials as boiler fuels
Decommissioning of weapons stockpiles, off-specification production, and upgrading of weapons systems results in a large amount of energetic materials (EM) such as rocket propellant and primary
Hazard analysis of technologies for disposing explosive waste.
  • N. Duijm
  • Engineering, Environmental Science
    Journal of hazardous materials
  • 2002
Physical Chemistry[M
  • Bei Jing: hinger education press,
  • 1991
RESEARCH ON WELD METALLURGY ABOUT THE COMBUSTION WELDING ROD BASED ON COPPER[D
  • Ordnance Engineering College,
  • 2007