M. Krzyzanowski et Jh. Beynon, Finite element model of steel oxide failure during tensile testing under hot rolling conditions, MATER SCI T, 15(10), 1999, pp. 1191-1198
A coupled thermomechanical model of oxide scale failure based on the finite
element method has been developed and applied to high temperature tensile
testing. The model allows for the analysis of elastic deformation, viscous
sliding along the oxide/metal interface, cracking, and spallation of the ox
ide scale from the metal surface. The different modes of oxide scale failur
e are predicted, taking into account the main physical phenomena, namely, s
tress directed diffusion, fracture, and adhesion. The model can be used to
evaluate the state of secondary oxide scales in the roll gap when deformati
on in tension takes place on the stock surface just before entering the rol
l gap. The combination of the modelling approach and the high temperature t
ensile tests allows accurate determination of the temperature range for the
transition from through thickness fracture of the scale to sliding of the
non-fractured oxide raft.