Search for conditions of compressive fracture of hard brittle ceramics at impact loading

G. I. Kanel, E. B. Zaretsky, A. M. Rajendran, S. V. Razorenov, A. S. Savinykh, V. Paris

Research output: Contribution to journalArticlepeer-review

43 Scopus citations

Abstract

In this paper we discuss three different experimental configurations to diagnosing the modes of inelastic deformation and to evaluating the failure thresholds at shock compression of hard brittle solids. One of the manifestations of brittle material response is the failure wave phenomenon, which has been previously observed in shock-compressed glasses. However, based on the measurements from our "theory critical" experiments, both alumina and boron carbide did not exhibit this phenomenon. In experiments with free and pre-stressed ceramics, while the Hugoniot elastic limit (HEL) in high-density B4C ceramic was found to be very sensitive to the transverse stress, it was found relatively less sensitive in Al2O3, implying brittle response of the boron carbide and ductile behavior of alumina. To further investigate the effects of stress states on the shock response of brittle materials, a "divergent flow or spherical shock wave" based plate impact experimental technique was employed to vary the ratio of longitudinal and transversal stresses and to probe conditions for compressive fracture thresholds. Two different experimental approaches were considered to generate both longitudinal and shear waves in the target through the impact of convex flyer plates. In the ceramic target plates, the shear wave separates a region of highly divergent flow behind the decaying spherical longitudinal shock wave and a region of low-divergent flow. Experiments with divergent shock loading of alumina and boron carbide ceramic plates coupled with computer simulations demonstrated the validity of these experimental approaches to develop a better understanding of fracture phenomena.

Original languageEnglish
Pages (from-to)649-670
Number of pages22
JournalInternational Journal of Plasticity
Volume25
Issue number4
DOIs
StatePublished - 1 Apr 2009

Keywords

  • Ceramic materials
  • Dynamic fracture
  • Plate impact
  • Shock waves

ASJC Scopus subject areas

  • General Materials Science
  • Mechanics of Materials
  • Mechanical Engineering

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