In the range of high strain rates, the mechanical behaviour of materia
ls is characterized by an increased strain rate sensitivity, by increa
sing effects of mass inertia forces and by the adiabatic character of
the deformation process.For the relation between stress, strain and st
rain rate, empirical formulae are now mostly replaced by material laws
based on structural mechanical models, whose parameters are to be det
ermined by adequate systematic methods. Also special effects such as t
he influence of strain rate on the strain at the lower yield point of
bcc-metals can be quantitatively described by simple models. The fract
ure mode and ductility are highly affected by the strain rate. The elo
ngation at fracture can be increased due to the stabilising effect of
the strain rate sensitivity similar to the super plastic behaviour. On
the other hand, it can be reduced by the thermal induced instability,
by the increasing sensitivity for internal notches and by the multiax
ial stress state caused by inertia forces. The strain rate affects als
o the ductile fracture conditions as well as the transition temperatur
e to clearage fracture.