Ultrasonic cutting — a fracture mechanics model

The process of cutting and machining is analysed using concepts developed in the fracture analysis of beam specimens. Increasing cutting forces and decreasing tool rake angles lead to a sequence of deformation processes from elastic bending to elastic-plastic bending and finally to shear yielding in

The method of ultrasonic fatigue finds increasing interest in materials science. Especially, fatigue crack growth rates near the threshold stress intensity range, AK,, can be determined with this method in reasonable times providing no frequency and corrosion effects exist. But for an accurate appli

Ahatr&--The behaviour of cracks in rock due to drag bit cutting is modelled using fracture mechanics principles based on a displacement discontinuity method. A realistic representation of a stress singularity at a crack tip is achieved using a special crack tip element with r In displacement variati

Ah&r&--Ultrasonic fatigue experiments are not carried out in load control but in displacement control. In addition, the thickness of the specimen center in ultrasonic fatigue must be thinner to increase the stress concentration. This means that it is not possible to apply the usual stress intensity

Using the cutting of long fibre reinforced polymer and ceramic particle reinforced aluminium as the examples, this paper tends to understand some common features in the mechanics modelling of machining composites. It demonstrates that an accurate characterisation of matrix deformation, matrix-reinfo