EPJ Web of Conferences (Jan 2017)

Cohesive strength of iron ore granules

  • Contreras Rafael Jaimes,
  • Berger Nicolas,
  • Izard Edouard,
  • Douce Jean-François,
  • Koltsov Alexey,
  • Delenne Jean-Yves,
  • Azema Emilien,
  • Nezamabadi Saeid,
  • van Loo Frédéric,
  • Pellenq Roland,
  • Radjai Farhang

DOI
https://doi.org/10.1051/epjconf/201714008020
Journal volume & issue
Vol. 140
p. 08020

Abstract

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We present an experimental and numerical investigation of the mechanical strength of crude iron ore (Hematite) granules in which capillary bonds between primary particles are the source of internal cohesion. The strength is measured by subjecting the granules to vertical compression between two plates. We show that the behavior of the granules is ductile with a well-defined plastic threshold which increases with the amount of water. It is found that the compressive strength scales with capillary cohesion with a pre-factor that is nearly independent of size polydispersity for the investigated range of parameters but increases with friction coefficient between primary particles. This weak dependence may be attributed to the class of fine particles which, due to their large number, behaves as a cohesive matrix that controls the strength of the granule.