Abstract
There are results of thermophysical processes of thermofrictional working of details by the disk tool. Results of mathematical modeling of heat distribution in a processing zone at thermofrictional working of details are presented. It is found that the size of Q2 heat quantity going to the cutting disk in unit of time has the considerable impact on firmness of a disk, and the quantity of Q2 heat cutting going to the cutting disk under various conditions can make up to 50-60% of all warmth of cutting.
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