Open Access
EPJ Web of Conferences
Volume 26, 2012
DYMAT 2012 - 10th International Conference on the Mechanical and Physical Behaviour of Materials under Dynamic Loading
Article Number 05005
Number of page(s) 5
Section Industrial Applications
Published online 31 August 2012
  1. B. Hopkinson, A Method of Measuring the Pressure Produced in the Detonation of High Explosives or by the Impact of Bullets, Philosophical Transactions of the Royal Society of London, Series A, Containing Papers of a Mathematical or Physical Character 1914, 213, 437-456. [CrossRef]
  2. H. Kolsky, An Investigation of the Mechanical Properties of Materials at Very High Rates of Loading, Proc. Phys. Soc., London, II-B 1949, 62, 676-700. [CrossRef]
  3. R. M. Davies, A Critical Study of the Hopkinson Pressure Bar, Philosophical Transactions of the Royal Society of London, Series A, Mathematical and Physical Sciences 1948, 240 (821), 375-457. [CrossRef]
  4. G. Taylor, The use of flat-ended projectiles for determining dynamic yield stress I. Theoretical considerations, Proc. Roy. Soc. London Series A., 1948, 194, 289. [CrossRef]
  5. Lindholm U. S., Some experiments with the split Hopkinson pressure bar, J. Mech. Phys. Sol., 12 (1964), 317. [CrossRef]
  6. I. M. Daniel, R. H. LaBedz, T. Liber, New Methods for Testing Composites at Very High Strain Rates, Experimental Mechanics 1981, 21 (2), 71-77. [CrossRef]
  7. S. Nemat-Nasser, J. B. Issacs, J. E. Starrett, Hopkinson Techniques for Dynamic Recovery Experiments, Proceedings of the Royal Society of London, Series A 1991, 453, 371-391. [CrossRef]
  8. S. Nemat-Nasser, J. Isaacs, J. Rome, Triaxial Hopkinson Techniques, Mechanical Testing and Evaluation, ASM Handbook, Volume 8, ASM International, Materials Park, OH, 2000, 516-518.
  9. W. Chen, B. Zhang, M. J. Forrestal, A Split Hopkinson Bar Technique for Low Impedance Materials, Experimental Mechanics 1999, 39, 1-5. [CrossRef]
  10. J. M. Lifshitz, H. Leber, Data Processing in the Split Hopkinson Pressure Bar Tests, International Journal of Impact Engineering 1994, 15 (6), 723-733. [CrossRef]
  11. M. N. Bussac, P. Collet, G. Gary, R. Othman, An Optimization Method for Separating and Rebuilding One-Dimensional Dispersive Waves From Multi-Point Measurements: Application to Elastic or Viscoelastic Bars, Journal of the Mechanics and Physics of Solids 2002, 50, 321-349. [CrossRef]
  12. L. Kruszka, W. K. Nowacki, New Applications of the Hopkinson Pressure Bar Technique to Determining Dynamic Behaviour of Materials, Journal of Theor. Appl. Mech., 1996, 34 (2), 259-280.