2013
DOI: 10.1016/j.ijmachtools.2012.11.004
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Very high speed cutting of Ti–6Al–4V titanium alloy – change in morphology and mechanism of chip formation

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Cited by 196 publications
(91 citation statements)
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“…The dimensionless instability characteristic time decreases with increasing cutting speed for different CEFs, which means that the instability of shear deformation may take place much more easily at higher cutting speed. The trend is in accordance with the available experiments during free machining titanium alloys (Arrazola et al, 2009;Gente et al, 2001;Molinari et al, 2002;Sutter and List, 2013;Ye et al, 2013). If the cutting speed is a constant, the dimensionless instability characteristic time increases with CEF increasing in DLSEM.…”
Section: Instability Analysissupporting
confidence: 89%
See 1 more Smart Citation
“…The dimensionless instability characteristic time decreases with increasing cutting speed for different CEFs, which means that the instability of shear deformation may take place much more easily at higher cutting speed. The trend is in accordance with the available experiments during free machining titanium alloys (Arrazola et al, 2009;Gente et al, 2001;Molinari et al, 2002;Sutter and List, 2013;Ye et al, 2013). If the cutting speed is a constant, the dimensionless instability characteristic time increases with CEF increasing in DLSEM.…”
Section: Instability Analysissupporting
confidence: 89%
“…However, the effect that the constraint suppresses the instability becomes much smaller at higher cutting speed. It is observed in the available experiments that the morphology of chip changes from continuous to serrate during cutting titanium alloys with increasing cutting speed (Arrazola et al, 2009;Gente et al, 2001;Molinari et al, 2002;Sutter and List, 2013;Ye et al, 2013). The critical speed that makes a distinction between continuous and serrated chip is an important parameter during free machining.…”
Section: Instability Analysismentioning
confidence: 99%
“…For high-speed machining in Fig. 15a1, the shear stress fluctuates periodically which is the same as the trend of cutting forces in the available experimental measurements [46][47][48]. Moreover, more and more researchers have confirmed that the periodical oscillation is the result of shear band type localized deformation in high-speed machining [26,27,49].…”
Section: Effect Of Cutting Speed On Hopf Bifurcation In Fmsupporting
confidence: 52%
“…In segmented chips, a narrow zone of high deformation appeared between the segments, the so-called adiabatic shear-band. During the cutting process, deformation localizes in the primary shear zone and temperature increase significantly (Siemers et al, 2012 In the past, the chip-formation process of titanium alloys was intensively studied by means of cutting experiments (Sutter and List, 2013) and simulations (Calamaz et al, 2008).…”
mentioning
confidence: 99%