SU827518A1 - Abrasiveless paste for greasing grinding circles - Google Patents

Description

The invention relates to solid pastes used in grinding metals and can be used in various fields of technology for semi-mechanical or automated processing of parts for cooling, to reduce friction between the product and the grinding wheel, to improve the quality of the surface being grinded and to facilitate cleaning of the wheels from chips.

Known paste used to grind the working surface of the grinding wheel, containing in its composition a mixture of high molecular fatty acids - stearic and palmitic (technical name - stearin) [1].

When using this paste, after grinding, contaminants remain on the treated surface, which are removed by organic solvents. The use of the latter is unsafe in terms of fire and renders unfavorable the sanitary and hygienic working conditions of workers associated with cleaning the surface of parts after grinding due to significant toxicity of solvents.

The closest in technical essence and the achieved result is a paste containing a mixture of high molecular fatty acids (stearin) paraffin and beeswax [2].

The disadvantages of the known paste are that a high-quality cleaning of the polished surface from the residues of this paste, after which it is possible to conduct electrochemical degreasing and applying a metal coating to the surface, is achieved by removing these residues with a chlorinated hydrocarbon, for example, tetrachlorethylene, or gasoline. 10 Tetrachlorethylene is toxic and surface cleaning must be carried out in special sealed apparatus.

The aim of the invention is to reduce the fire hazard and improve the sanitary15 hygienic working conditions in the technology of cleaning the grinding surface from the remains of the paste, without compromising the roughness of the processed surface.

The goal is achieved in that the paste contains high molecular weight fatty acid or a mixture of high molecular weight fatty acids, additionally polyethylene glycol and a mixture of polyethylene glycol ethers of higher fatty alcohols in the following ratio of ingredients, weight. %:

Polyethylene glycol 20–55

A mixture of polyethylene glycol 30 esters of higher fatty alcohols 5-20

High molecular weight fatty acid or a mixture of high molecular weight fatty acids

Example. In a metal or ceramic container, the calculated amount of polyethylene glycol is melted at the appropriate temperature. After the product is completely melted, the required amount of a mixture of polyethylene glycol esters of higher fatty alcohols is introduced into it and, when stirred with a stirrer, the substance is completely melted. Then, high molecular weight fatty acid or a mixture of high molecular weight fatty acids is introduced into the melt and, with stirring, the temperature of the mixture is raised to 75–85 ° C. After achieving complete homogeneity of the melt, it is poured into a special form, where it is held until completely solidified.

Examples of pastes are given in the table.

Ingredient The content of ingredients in pastes, weight. % 1 12 3 Polyethylene glycol (PEG-115) 40 20 55 A mixture of polyethylene glycol esters of higher fatty alcohols (drug OS-20) 10 20 5 High molecular weight fatty (stearic) acid fifty 60 - A mixture of high molecular weight fatty acids (stearin) - 40

With an increase in the concentration of high molecular fatty acid or a mixture of high molecular fatty acids (insoluble in water) in the paste, the conditions for the removal of paste residues from the treated surfaces deteriorate. It is necessary to increase the duration of the cleaning operation or increase the temperature of the cleaning solution and its concentration. A decrease in the content of high molecular weight fatty acid or a mixture of high molecular fatty acids below the limit concentration leads to an increase in the content of polyethylene glycol and / or a mixture of polyethylene glycol: higher esters of higher fatty alcohols. Such a change in the composition of the paste is accompanied by a decrease in the conventional average melting temperature, which should be close to 60 ° C. Lowering this temperature makes the paste easily softened, it is weaker retained on the working surface of the grinding wheel and its consumption increases, and the sticking ability of the paste deteriorates.

Order 646/18 Ed. No. 303

The tests were carried out during grinding of aluminum handles of N-1 scissors and dump BM-3 racks. It was processed scissors 250 pieces, trunk 100 pieces. For the 5th test period, 0.750 kg of paste was consumed.

As a result of the tests, it was found that the paste for filling is easily applied to the working surface of the grinding wheel and is well supported on it during processing; the surface microroughness after processing it using a new paste is the same as when working with a paste used in workshop 15 and containing stearin, paraffin and oleic acid; the complexity when using a new paste does not increase, and the complexity when removing residues of the paste decreases compared to paste based on stearin, paraffin and oleic acid; the contaminants remaining after grinding with pastes can easily be removed from the treated surface in a solution containing sodium carbonate in an amount of 25-30 g / l and sodium silica - 10-15 g / l, or a 3% solution of a mixture of polyethylene glycol esters of higher fatty alcohols , as well as any weak solutions of substances with detergents 30 means. The temperature of the solution is 80–90 ° C.

Claims (1)

Claim Non-abrasive paste for greasing 35 grinding wheels, including high molecular weight fatty acid or a mixture of high molecular weight fatty acids, characterized in that, in order to reduce fire hazard and improve sanitary and hygienic working conditions in the technology of cleaning the polished surface from paste residues, without compromising the roughness of the treated surface, it additionally contains polyethylene glycol and 45 a mixture of polyethylene glycol esters of higher fatty alcohols in the following ratio of ingredients, weight. %: Polyethylene glycol 20–55 A mixture of polyethylene glycol 50 esters of higher fatty acids 5-20 High molecular weight fatty acid or a mixture of high molecular weight fatty acids