Affiliation:
1. Vladimir State University named after Alexander and Nikolay Stoletovs
Abstract
The article deals with the construction of an intensive process of grinding materials using a precast textured wheel and a device for the centrifugal giving of lubricating and cooling liquid (LCL) directly to the local contact zones of the cutting and pressing abrasive grains with the processed material. The design of the tool and an effective method of coolant giving to the cutting zone are described, which provide the required roughness of the treated surface and eliminate structural changes in the surface layer under intensive grinding conditions. An increase in the rate of heat removal from the grinding zone is achieved by using a textured tool design, a device for centrifugal giving of coolant and accelerating the liquid to approximately the cutting speed. A method for constructing an intensive grinding process with a precast textured tool has been developed, the implementation of which can significantly increase the processing efficiency. The results of the research are recommended for grinding steels, cast iron and other metals and alloys that are prone to the formation of cauterization, tensile residual stresses and other thermal defects that occur under the influence of high temperature in the grinding zone.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Reference20 articles.
1. Z.I. Kremen, V.G. Yuryev, A.F. Baboshkin, Technology of grinding in mechanical engineering, Sankt-Peterburg. (2007).
2. Z.I. Kremen, V.G. Iur'ev, Grinding by super abrasives highly plastic alloys, Sankt-Peterburg. (2013).
3. V.K. Starkov, Grinding by high-porous wheels, Moscow. (2007).
4. M.J. Jackson, M.P. Hitchiner, High performance grinding and advanced cutting tools. Springer, Verlag. (2012).
5. E. Oliveira, C. Silva, G.F. Hashimoto, Industrial challenges in grinding, CIRP Annals – Manuf. Tech. (2009) 58 (2) 663–680.