SU456825A1 - Cutting fluid for machining of metals - Google Patents

Description

This invention relates to the field of metal processing. It can be used in those operations where oil formulations of coolant should be used as a cooling technology. A known coolant for machining metals is based on a non-tarred extract for the selective purification of petroleum oils. However, when using a known coolant lubricant, insufficient durability of the machining tool is observed, as well as poor thermo-acid, weak acid and anti-corrosion properties of the coolant. To improve the durability of the machining tool and improve the thermo-acidifying and anticorrosive properties of the coolant according to the proposed method, polymethacrylate and a chlorine-containing additive — trichloromethylphosphinic acid esters, such as chlorofit-40, or chlorinated hydrocarbons and polymethylsiloxane-II-i-II, i-II-i-II, i-II fluids, i.e. Below is the composition of the proposed cutting fluid weight. %: Trichloromethylphosphinic acid ester or chloro-10-10 hydrocarbons Polymethacrylate0.02-3.0 Iolimethylsiloxane liquid0.005-0.02 Disintegrated extract for selective purification of petroleum maslodo 100. Purification of the extract before introducing it into the composition of the coolant can be performed by any known methods (sulfuric acid, acid-contact, adsorption hydrotreating) or a combination of them, to achieve the removal of resinous substances to a residual content in the extract of 0.5-2 weight. % The proposed coolant is prepared by simply displacing the purified extract with all the other components at 70 ° C for 90 minutes. The mixing process is carried out by any of the known methods. In tab. Figures 1 and 2 show the physico-chemical parameters, the main and related operational properties of coolant prepared by the raw and purified extracts, with the introduction of nolimethacrylate “D and without it. From the data table. It follows that the use of purified extracts as the basis for the SAL allows an increase in the durability of the cutting tool compared to the use of cutting fluids prepared by the raw extract. At the same time, the tool life increases the composition of coolant based on raw and purified extracts and tools. Table 1

Comparison of technological properties All compositions contain iolimethacrylate "D ° and antifoam

as the content of resinous substances decreases and increases sharply with a residual content of resins in the extract of less than 2 wt. % So, when applying the coolant prepared on an extract containing 0.8 weight. % resin, the durability of the cutting tool increases by 6.6 times compared with the coolant based on the crude extract.

From the data table. 1 it follows that when introduced into a composition based on a purified extract and a chlorine-containing additive polymethacrylate, “D op increases the durability of the processing tool. So, for example, in all the above compositions, the introduction of polymethacrylate "D increases the drill resistance by 150-340 holes compared to the corresponding compositions without polymethacrylate" D.

In tab. 1 shows the composition of the coolant PA on the basis of the raw extract with the contents in it of resinous substances 6.3 weight. % and on the basis of the extract, after acid-contact cleaning HaSOi and bleaching clay, containing 0.8 wt. % resinous substances.

Exodus from the data table. 2, we can conclude about the effect of chlorine-containing additives on the main performance properties of coolant. The effectiveness of the product prepared in the purified extract using chlorinated paraffin is 2.6 times higher than the effectiveness of the known coolant based on the raw extract and the same additive. The effectiveness of the proposed product is 2.6 times higher than that of a similar liquid based on

marketable oil IS-20.

. With the introduction of the coolant, prepared on a purified extract, additive chloreph-40, the resistance of the cutting tool increases 4.5 times compared with the known

Coolant and 2.3 times compared to the analogue of coolant based on extracts, oil IS-20 and additives of chlorinated paraffin or chloref-40 Table 2 to the additive PMS-200A

liquid based on commercial oil IS-20.

The use of the degummed extracts with the addition of polymethacrylate "D" allows to improve not only their basic, but also related characteristics as the basic basis of the coolant. So, for example, an increase in viscosity after oxidation of a coolant prepared on the basis of purified extracts is 2-3.5 times less, and the viscosity of a coolant prepared on a raw extract. The anticorrosive properties of liquids prepared on purified extracts correspond to the same properties of liquids used without the introduction of a special additive.

Introduced into the composition of the coolant, prepared on the basis of purified extracts, polymethacrylate PMA "D in the amount of 1.0 weight. % contributes to lowering their pour point from +9 to -8, -10 ° C.

Thus, according to its properties, the proposed coolant is much more effective than the known coolant prepared on the basis of the raw extract with a smaller number and concentration of additives in the composition.

It should also be noted that the coolant prepared on purified extracts is also distinguished by improved sanitary and hygienic indicators, such as a decrease in its carcinogenicity.

In addition, the introduction of polymethacrylate causes not only an increase in the durability of the processing tool, oo, and significantly increases the antioxidant and anti-corrosion properties of coolant.

Thus, the implementation of the proposed invention in the industry will increase the technical and economic results of metalworking by releasing the deficient target products, rational use of waste, saving materials of processing tools, increasing labor productivity and improving the sanitary-hygienic conditions of workplaces.

Subject invention

Cooling lubricant for mechanical processing of metals based on the non-tarred extract of the selective purification of petroleum oils, characterized in that chlorine hydrocarbons or trichloromethylphosphinic acid dibutyl ether, polymethacrylate and polymethylsiloxane are added to the liquid liquid in the following ratio of components, weight. %:

Chlorinated hydrocarbons or trichloromethylphosphinic acid dibutyl ester2-10

Polymethacrylate0.02-3.0

Polymethylsiloxane

liquid0.005-0.02

Remussed extract of selective purification of petroleum maseldo 100.