Costs in precision cylindrical grinding are compared for different abrasives, machines and grinding conditions. The analysis is for repeated batch production. Account is taken of machine cost and abrasive cost. Cost comparisons were based on extensive trials to assess re-dress life against workpiece quality requirements. Experiments show that different workpiece materials require different strategies to reduce costs. Easy-to-grind AISI 52100 and difficult-to-grind Inconel 718 materials were ground at conventional speeds and at high speeds. It is shown that wheel speed affects production rate through acceptable values of re-dress life, removal rate and dwell time. Advantages were gained using vitrified CBN at conventional speed and at high speed. For both materials, vitrified CBN wheels used at high speed, gave better quality at lower cost than conventional abrasives. Wheel costs became negligible and labour costs greatly reduced. Re-dress life trials, usually neglected, are shown to be essential to reduce costs and maintain quality [1].
[1]
S. A. Tobias.
Machine-tool vibration
,
1965
.
[2]
W. B. Rowe,et al.
Assessment of vitrified CBN wheels for precision grinding
,
2004
.
[3]
N. H. Woolley,et al.
The effects of cutting fluid application methods on the grinding process
,
2000
.
[4]
Stephen Ebbrell.
Process requirements for precision grinding
,
2003
.
[5]
W. B. Rowe,et al.
CHARACTERIZATION OF THE SIZE EFFECT IN GRINDING AND THE SLICED BREAD ANALOGY
,
1997
.
[6]
M. C. Shaw,et al.
Energy Conversion in Cutting and Grinding
,
1996
.
[7]
M. J. Jackson,et al.
High-speed grinding with CBN grinding wheels — applications and future technology
,
2001
.