Tribological aspects of hard turning with ceramic tools
Journal Article
·
· Lubrication Engineering
OSTI ID:159576
- Institute for Production Engineering and Machine Tools, Hannover (Germany)
Process parameters in hard turning are completely different from those in conventional turning. The tribological effects which occur in finishing hardened steels, using coolants and in dry cutting, were compared by means by turning tests with ceramic tools. Tool wear, surface integrity and chip formation, as influenced by different coolants in hard turning, are described. Cooling effect reduces the thermal load of the cutting edge, and thus increases tool life as compared to dry cutting. In addition, surface roughness of the workpiece can be improved either by chemical interaction between workpiece surface and extreme-pressure additives of the coolant or by pure mineral oil application. On the workpiece surface, rehardened layers were found both in dry and wet cutting, a result of rapid self-cooling. However, rehardened zones at the bottom side of the chips appeared only when coolant was supplied because this operation exceeded the critical quench speed in their chip. 16 refs., 10 figs., 3 tabs.
- OSTI ID:
- 159576
- Journal Information:
- Lubrication Engineering, Journal Name: Lubrication Engineering Journal Issue: 2 Vol. 51; ISSN 0024-7154; ISSN LUENAG
- Country of Publication:
- United States
- Language:
- English
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