SU1139619A1 - Method of impregnating abrasive tool - Google Patents

Abstract

METHOD OF DRINKING OF ABRASIVE TOOL, in which the finished tool is impregnated with low molecular weight polyethylene, characterized in that, in order to improve the quality of the surface, the tool is impregnated with a 20-40% solution of astrakhanite and dried.

Description

WITH

about

One 111 The invention relates to the manufacture of an abrasive tool, in particular to compositions and methods for impregnating the finished tool, which improves the operational characteristics of the tool. There is a method of improving the performance characteristics of an abrasive tool, in which the finished tool is impregnated with a melt of low molecular weight polyethylene. The advantage of this method is that this material is available because it is a waste product in the production of ethylene, moreover, it is not toxic, it has low viscosity in the melt and is easily absorbed by the pores of the abrasive tool ij. However, circles impregnated with low molecular weight polyethylene can be used at low grinding speeds, since at elevated speeds in the cutting area, the temperature rises, low molecular weight polyethylene quickly evaporates and the effect of lubrication in the area of tool contact and the surface of the part is lost. . All this reduces the processing performance. The purpose of the invention is to increase the processing performance of an abrasive tool, as well as improving the quality of the surface being treated. This goal is achieved by the fact that, according to the method of impregnation of an abrasive tool, in which the gothic tool is impregnated with low molecular weight polyethylene, the tool is pre-impregnated with a 20-40% solution of astrakhanite (P80, MgSO) and dried. As a result of the impregnation, the pores of the abrasive tool turn out to be filled with Astrakhanite (Na SO MgSQ and low molecular weight polyethylene. During the grinding process, with the tool obtained in this way, Astrakhanite (MgSOjj), when reaching a cutting temperature of 600-625 0, decomposes into anti-anthof fit NajSq, - 3MgSO, and MgSO solid solution (30 mol.%) In NajSO CTO mol.%. This decomposition is accompanied by the absorption of heat (with an endothermic effect), which helps to reduce the temperature in the grinding zone. As a result, low molecular weight polyethylene improves the lubrication conditions of the workpiece. 92 The choice of Astrakhanite is due to the fact that molten sulfur and some salts of sulfuric acid are used to impregnate an abrasive tool in order to increase its performance properties. However, the molten sulfur and the sulfur-containing compounds used for these purposes have a high viscosity, therefore, using them, it is difficult to achieve a good uniform quality of impregnation, especially fine-grained tools. In addition, the tool, which is impregnated with sulfur and used in practice with other gray-containing compounds, works effectively at low temperatures in the cutting zone. For example, sulfur at 445 ° C evaporates. Therefore, as an impregnator, it is proposed to use Astrakhanite, which dissolves well in water and in its solution can be uniformly impregnated with abrasive tools of any grain size by reducing or increasing the concentration of the solution. Increasing the performance characteristics of an abrasive tool, uniformly impregnated with Astrakhanite, is carried out both by astrakhanite itself. and its sulfur-containing decomposition products of anti-anthoffite Na2S043MgS04 and MgSO solid solution (30 mol.%) in Na SOXTO mol.%, which have an increased decomposition temperature (astrakhanite decomposition temperature is approximately 200 ° C above the sulfur decomposition temperature). This is a qualitative advantage and gives a positive effect at high grinding speeds when the temperature in the cutting zone exceeds 600 ° C. Example 1. An abrasive product with a grain size of 500 to 250 µm, after aging, it is placed in an oven and moisture is removed. For 5 minutes, it is impregnated in the melt of low molecular weight polyethylene having a temperature of 125-135 ° C for 2 minutes. Example 2: A tool with a grain size of 160 to 80 µm is impregnated in a bath with a 30% astrakhanite solution for 4 minutes, and after drying, in a melt of low molecular weight polyethylene, 3 minutes. Example 3. A tool with a grain size of less than 80 microns is impregnated in a bath with a 20% solution of astrakhanite for 5 minutes, and after drying, in a melt of low molecular weight polyethylene for 4 minutes. Comparative trials of FPZOO x 25 x X 76 24 A 16CM2 6 K hardened circles impregnated in molten molecular polymer polyethylene with the same tick pattern but pre-saturated with 30% Astrakhanite were carried out. The tests were carried out on a surface grinding machine model 3171. Work on the parts from steel 1PH 15SG. Grinding modes: Circle speed, m / s35-45 Longitudinal feed, m / min Cross-feed, mm / pass 0.015-0.02 Test results are presented in the table. From the table it can be seen that the proposed method allows to provide increased grinding speeds and, as a result, to increase tooling productivity by 20-25%.

Known

Offered (pre-impregnated with 307o-hm solution of astrakhanite)

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Traces of burns

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Good

Claims (1)

METHOD FOR IMPREGNATING AN ABRASIVE TOOL, in which the finished tool is impregnated with low molecular weight polyethylene, characterized in that, in order to improve the quality of the treated surface, the tool is impregnated with polyethylene with a 20-40% solution of astrahanite and dried. ¢ 0 C © 1 1139619