Metal Machining with High-Pressure Water-Jet Cooling Assistance-A New Possibility
Metal machining is one of the fundamental manufacturing processes. The principal cost of shaping metal parts is generated both in the work involved in shearing metal from the original stock, at the area where the chips are formed, and also in the work required to overcome the high frictional forces that exist between the chip and rake face. Current techniques for the lubrication and cooling of this area are not very effective, resulting in a machining cost which is much higher than need be. A more efficient lubricant cooling effect can be achieved by the use of a high pressure water jet directed into the tool/chip interface. The study of this idea was prompted by results achieved in the 1950's, but now extended to much higher jet injection pressures (up to 280 MPa). The emphasis of this article is on the comparison of the coefficient of friction at the tool/rake interface for conventional and high pressure jet cooling and also on reporting some practical results. Evaluation of these results indicates both a significant gain in the material removal rate as well as an improvement in the chip shape. The results are for a UNS 1020 steel-a representative of the poorly machinable materials.
M. Mazurkiewicz and Z. Kubala, "Metal Machining with High-Pressure Water-Jet Cooling Assistance-A New Possibility," Journal of Manufacturing Science and Engineering, American Society of Mechanical Engineers (ASME), Jan 1989.
The definitive version is available at https://doi.org/10.1115/1.3188736
Mining and Nuclear Engineering
Chemical and Biochemical Engineering
Keywords and Phrases
Cooling; Metals; Machining; High Pressure (Physics); Water; Shapes; Shearing; Force; Friction; Lubrication
Article - Journal
© 1989 American Society of Mechanical Engineers (ASME), All rights reserved.