期刊
JOURNAL OF MATERIALS PROCESSING TECHNOLOGY
卷 214, 期 6, 页码 1293-1300出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jmatprotec.2014.01.016
关键词
White layer; Hard turning; Phase transformation; Intense plastic deformation; Cutting temperatures; Surface integrity
资金
- Area of Advanced Production at Chalmers University of Technology
This paper concerns the temperature evolution during white layer formation induced by hard turning of martensitic and bainitic hardened AISI 52100 steel, as well as the effects of cutting temperatures and surface cooling rates on the microstructure and properties of the induced white layers. The cutting temperatures were measured using a high speed two-colour pyrometer, equipped with an optical fibre allowing for temperature measurements at the cutting edge. Depending on the machining conditions, white layers were shown to have formed both above and well below the parent austenitic transformation temperature, A(c1), of about 750 C. Thus at least two different mechanisms, phase transformation above the A(c1) (thermally) and severe plastic deformation below the A(c1) (mechanically), have been active during white layer formation. In the case of the predominantly thermally induced white layers, the cutting temperatures were above 900 degrees C, while for the predominantly mechanically induced white layers the cutting temperatures were approximately 550 C. The surface cooling rates during hard turning were shown to be as high as 10(4)-10(5) degrees C/s for cutting speeds between 30 and 260 m/min independent of whether the studied microstructure was martensitic or bainitic. Adding the results from the cutting temperature measurements to previous results on the retained austenite contents and residual stresses of the white layers, it can be summarised that thermally induced white layers contain significantly higher amounts of retained austenite compared to the unaffected material and display high tensile residual stresses. On the contrary, in the case of white layers formed mainly due to severe plastic deformation, no retained austenite could be measured and the surface and subsurface residual stresses were compressive. (C) 2014 Elsevier B.V. All rights reserved.
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