Dimensional Analysis and Extended Hydrodynamic Theory Applied to Long-Rod Penetration of Ceramics

@article{Clayton2016DimensionalAA,
  title={Dimensional Analysis and Extended Hydrodynamic Theory Applied to Long-Rod Penetration of Ceramics},
  author={John D. Clayton},
  journal={Defence Technology},
  year={2016},
  volume={12},
  pages={334-342}
}
  • J. Clayton
  • Published 1 August 2016
  • Materials Science
  • Defence Technology

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References

SHOWING 1-10 OF 70 REFERENCES
Modeling and Simulation of Ballistic Penetration of Ceramic-Polymer-Metal Layered Systems
Numerical simulations and analysis of ballistic impact and penetration by tungsten alloy rods into composite targets consisting of layers of aluminum nitride ceramic tile(s), polymer laminae, and
An examination of long-rod penetration
Response of silicon carbide to high velocity impact
This article presents an analysis of the response of silicon carbide to high velocity impact. This includes a wide range of loading conditions that produce large strains, high strain rates, and high
The erosion transition of tungsten-alloy long rods into aluminum targets
...
1
2
3
4
5
...