Single-point turning of Inconel 718 alloy with commercially available Physical Vapour Deposition (PVD)-coated carbide tools under conventional and high-pressure coolant supplies up to 20.3 MPa was carried out. Tool life, surface roughness (Ra), tool wear, and component forces were recorded and analyzed. The test results show that acceptable surface finish and improved tool life can be achieved when machining Inconel 718 with high coolant pressures. The highest improvement in tool life (349%) was achieved when machining with 11 MPa coolant supply pressure at higher speed conditions of 60 m · min−1. Machining with coolant pressures in excess of 11 MPa at cutting speeds up to 40 m · min−1 lowered tool life more than when machining under conventional coolant flow at a feed rate of 0.1 mm · rev−1. This suggests that there is a critical coolant pressure under which the cutting tools performed better under high-pressure coolant supplies. Cutting forces increased with increasing cutting speed due probably to reactive forces introduced by the high-pressure coolant jet. Tool wear/wear rate increased gradually with prolonged machining with high coolant pressures due to improved coolant access to the cutting interface, hence lowering cutting temperature. Nose wear was the dominant tool failure mode when machining with coated carbide tools due probably to a reduction in the chip-tool and tool-workpiece contact length/area.
[1]
B. Lindström,et al.
The role of tool-chip contact length in metal cutting
,
1993
.
[2]
J. Kaminski,et al.
Temperature reduction in the cutting zone in water-jet assisted turning
,
2000
.
[3]
E. Ezugwu,et al.
An overview of the machinability of aeroengine alloys
,
2003
.
[4]
Radovan Kovacevic,et al.
High pressure waterjet cooling/lubrication to improve machining efficiency in milling
,
1995
.
[5]
R. Wertheim,et al.
Influence of High-pressure Flushing through the Rake Face of the Cutting Tool
,
1992
.
[6]
R Crafoord,et al.
Chip control in tube turning using a high-pressure water jet
,
1999
.
[8]
Emmanuel O. Ezugwu,et al.
Effect of high-pressure coolant supply when machining nickel-base, Inconel 718, alloy with coated carbide tools
,
2004
.
[9]
Álisson Rocha Machado,et al.
The effect of high-pressure coolant supply when machining a heat-resistant nickel-based superalloy
,
1991
.
[10]
W. B. Rice,et al.
Some Effects of Injecting Cutting Fluids Directly Into the Chip-Tool Interface
,
1971
.
[11]
Álisson Rocha Machado,et al.
The Effects of a High-Pressure Coolant Jet on Machining
,
1994
.