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Abstract
Previous models of a single erosion impact, for a rigid axisymmetric indenter defined by the shape function , have shown that a critical shape parameter
exists which determines the behaviour of the threshold fracture energy. However, repeated investigations into this parameter have found no physical explanation for its value. Again utilising the notion of incubation time prior to fracture, this paper attempts to provide a physical explanation of this phenomena by introducing a supersonic stage into the model. The final scheme allows for the effect of waves along the indenters contact area to be taken into account. The effect of this physical characteristic of the impact on the threshold fracture energy and critical shape parameter
are investigated and discussed.
Acknowledgements
The authors are very grateful to Prof. I. Argatov for the many illuminating remarks and fruitful discussions enjoyed during the creation of this paper.
Notes
No potential conflict of interest was reported by the authors.
1 Here the values ,
must be small enough to accurately model the asymptotic behaviour, but also not so small as to require infeasible velocities. See Appendix 1 for a more thorough examination of this choice.