Hard and brittle materials (HBMs) are promising materials for aerospace and astronomy
applications, due to their excellent mechanical, optical, and chemical properties. However …

The use of ultrasonic vibration on milling has several benefits including reduction of the
machining forces. However, the mechanism behind this phenomenon is unclear, and …

In the current study, a predictive model on tool flank wear rate during ultrasonic vibration-
assisted milling is proposed. One benefit of ultrasonic vibration is the frequent separation …

Machining temperature is a key factor in ultrasonic vibration-assisted milling as it can
significantly influence tool wear rate and residual thermal stresses. In current study, a …

Glass-ceramic is widely used in aerospace, bionics, optics and other fields with low
expansion and high strength and low dielectric loss, but its hardness and brittleness as well …

An analytical predictive model for flank tool wear in laser-assisted milling is proposed based
on the principles of abrasive, adhesive, and diffusive wear. The laser effect is included by …

An analytical model for residual stress prediction considering the effects of material dynamic
recrystallization under process-induced mechanical and thermal stresses is proposed. The …

In laser-assisted milling, higher temperature in shear zone softens the material potentially
resulting in a shift of mean residual stress, which significantly affects the damage tolerance …

In current study, an inverse analysis is conducted on tool life based on five process
parameters, by predicting tool life based on guessed process parameters, which is defined …

3.4. 1 Average stress on tool-workpiece interface due to flank wear 67 3.4. 2 Temperature
prediction of cutting tool on tool-workpiece interface 71 3.4. 3 Flank tool wear rate prediction …