会议论文详细信息
International Conference on Mechanical Engineering, Automation and Control Systems 2017
Research on operation mode of abrasive grain during grinding
机械制造;无线电电子学;计算机科学
Ivanova, T.N.^1,2,3 ; Dement'Ev, V.B.^2 ; Nikitina, O.V.^3
Tchaikovsky Branch Perm National Research Polytechnic Institute, Lenin St. 73, Tchaikovsky
617764, Russia^1
FGBUN Institute of Mechanics, Ural Branch of the Russian Academy of Sciences, Senior Research Scientist, T. Baramzinoy St. 34, Izhevsk
426000, Russia^2
Udmurt State University, Universitetskaya St. 1, Izhevsk
426034, Russia^3
关键词: Abrasive materials;    Allotropic modification;    Calculation of temperature;    Creep-feed grinding;    Diffusion and oxidation;    Heating and cooling;    Processed materials;    Temperature stress;   
Others  :  https://iopscience.iop.org/article/10.1088/1757-899X/327/4/042045/pdf
DOI  :  10.1088/1757-899X/327/4/042045
学科分类:计算机科学(综合)
来源: IOP
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【 摘 要 】

The processing of materials by cutting with an abrasive tool is carried out by means of thousands of grains bonded together as a single whole. The quality of the abrasive tool is defined by cutting properties of abrasive grains and depends on features of spreading the temperature field in time and in the abrasive grain volume. Grains are exposed to heating and cooling during work. It leads to undesired effects such as a decrease of durability of grain retention in the binder, hardness, intensification of diffusion and oxidation processes between the binder and the grain, the occurrence of considerable temperature stresses in the grain itself. The obtained equation which allows calculation of temperature field of grain for one rotation of grinding wheel shows that the temperature of the wheel depends on grinding modes and thermophysical properties of abrasive material. Thus, as the time of contact of grain with processed material increases, the temperature in the cutting area rises. As thermophysical properties increase, the temperature in cutting area decreases. Thermal working conditions are determined to be different from each other depending on contact time of the grain and the material. For example, in case of creep-feed grinding, the peak value of temperature is higher than during multistep grinding; the depth of expansion is greater. While the speed of the thermal process in creep-feed grinding is 2-3 times lower than in multistep grinding, the gradient reduces 3-4 times. The analysis of machining methods shows that creep-feed grinding ensures greater depth of grain heating, a smaller heating rate and a reduced velocity gradient. It causes a decrease of probable allotropic modifications and prevents from occurring of heat strokes-cracking of grains due to high temperature falls. Consequently, it is necessary to employ creep-feed grinding to increase the efficiency of abrasive tool employing. Three operation modes of grinding wheel including blunting, full self-sharpening, emergency wear and tear are determined as the result of the research on evaluation of cutting ability of grinding wheels. Recommendations for working capacity of grinding wheels in each operation mode and with a transition from one mode to another are given. As a result of the research, different dependencies were determined. They include dependencies, governing the extent of influence of granularity, difference in height and concentration of grains, geometry parameters of the detail to be machined and the grinding wheel on machining modes and the thickness of the layer cutoff by one grain. They have an influence on the grinding process.

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