EP0071167B1 - Water-soluble lubricant - Google Patents

Description

In the case of shaping and machining metalworking, oils or aqueous emulsions of mineral oils or fatty oils which contain anionic or nonionic emulsifiers or mixtures of such emulsifiers are generally used as coolants and lubricants. To improve their performance properties, these oil emulsions can contain more or less large amounts of substances that improve the lubricity. These are mostly chlorine, phosphorus or sulfur-containing compounds. Nevertheless, these oil emulsions often do not meet the requirements placed on such metalworking agents.

However, as multiphase systems, the emulsions often have insufficient physical stability and tend to separate into an oil and a water phase due to particle enlargement under operating conditions. As a result, the emulsion becomes unusable for the application mentioned and no longer has the optimum properties of such metalworking fluids.

There is therefore a need for metalworking fluids which on the one hand have a sufficient lubricating effect and on the other hand have an adequate stability.

Recent developments therefore take advantage of the fact that aqueous single-phase systems, such as are present, for example, in clear solutions of lubricant-effective, water-miscible polymer bodies based on ethylene oxide and propylene oxide, are not subject to such disadvantageous changes and therefore have a service life which is many times longer in practical operation than the emulsions.

It is known, for example, that water-soluble representatives from the substance class of polyalkylene oxides, for example straight-chain or branched-chain ethylene-propylene block polymers, are used for this purpose. (See Th. Mang et al. In "Kontakt und Studium 1980" Vol. 61, page 35. Expert Verlag.)

Practice has shown, however, that in many cases the lubricating effect of this class of substances is not sufficient to carry out even heavier, high-speed machining operations in the field of machining ferrous and non-ferrous metals, such as milling or drilling or cutting threads.

The purpose of the invention is therefore to provide water-soluble lubricants which are suitable for high-performance operations such as punching, tapping, tapping and the like and not only for the machining of ferrous metals such as steel and steel alloys, but also for the machining of non-ferrous metals such as copper, aluminum, Brass, bronze and the like are suitable.

enthalten, wobei R Wasserstoff, C₁―C₁₂-Alkyl oder C₂―C₁₂-Alkenyl, R, C₁―C₁₈-Alkyl oder C₂―C₁₈-Alkenyl, A eine Gruppe der Formeln

X eine Zahl von 0 bis 15 bedeutet und die Zahlenwerte für m und n so gewählt sind, daß der Gesamtgehalt an Ethylenoxid und/oder Propylenoxid im Molekül 10 bis 800 Alkylenoxid-Einheiten beträgt. Bevorzugt sind solche Verbindungen der obigen Formel, worin R Wasserstoff oder C,-C₄-Alkyl, R_i C₆―C₁₈-Atkyl oder C₆―C₁₈-Atkenyl, A eine Gruppe der Formel

X eine Zahl von 1 bis 9 bedeutet und der Zahlenwert für m so gewählt ist, daß der Gesamtgehalt an Ethylenoxid im Molekül 40 bis 200 Ethylenoxid-Einheiten beträgt.The invention relates to water-soluble lubricants which contain one or more compounds of the formula

contain, wherein R is hydrogen, C ₁ ―C ₁₂ alkyl or C ₂ ―C ₁₂ alkenyl, R, C ₁ ―C ₁₈ alkyl or C ₂ ―C ₁₈ alkenyl, A is a group of the formulas

X denotes a number from 0 to 15 and the numerical values for m and n are chosen such that the total content of ethylene oxide and / or propylene oxide in the molecule is 10 to 800 alkylene oxide units. Preferred compounds of the above formula are those in which R is hydrogen or C 1 -C ₄ -alkyl, R _i C ₆ ―C ₁₈ -alkyl or C ₆ ―C ₁₈ -atkenyl, A is a group of the formula

X denotes a number from 1 to 9 and the numerical value for m is chosen so that the total content of ethylene oxide in the molecule is 40 to 200 ethylene oxide units.

Oxethylaten umgesetzt und letztere in Carbonsäureester überführt. Zur Herstellung der lineare cyclischen Novolake können Phenol oder gegenüber Formaldehyd bifunktionelle Alkylphe geradkettigen oder verzweigten Alkylresten von C, bis 612 oder deren Mischungen eingesetzt werden. Das bei der Novolakbildung auftretende Reaktionswasser muß entfernt werden. Dies kann gegebenenfalls azeotrop, während oder nach der Reaktion mit Aldehyden oder durch Anlegen von Vakuum erfolgen. Als Katalysator können beispielsweise Säuren wie Salzsäure, Schwefelsäure, p-Toluolsulfonsäure, Oxalsäure, als alkalische Katalysatoren bevorzugt Natriumhydroxid, Kaliumhydroxid, Natriummethylat oder Kalium-tert.-butylat eingesetzt werden.The compounds described above are prepared by known processes. For example, phenol or alkylphenols or their mixtures with formaldehyde or paraformaldehyde are first condensed to linear or cyclic novolaks, as described in Hultzsch, Chemie der Phenolharze, 1950 page 114 or in US Pat. No. 4,032,514 or in J. Org. Chem. Vol. 43, No. 25, 1978, 4905-49 ^r . These novolaks then become the alkylene oxides in a known manner

Oxethylates implemented and the latter converted into carboxylic acid esters. To produce the linear cyclic novolaks, phenol or alkylphosphate which is bifunctional to formaldehyde straight-chain or branched alkyl radicals from C to 612 or mixtures thereof are used. The water of reaction occurring during the formation of novolak must be removed. This can optionally be carried out azeotropically, during or after the reaction with aldehydes or by applying a vacuum. For example, acids such as hydrochloric acid, sulfuric acid, p-toluenesulfonic acid, oxalic acid can be used as the catalyst, preferably sodium hydroxide, potassium hydroxide, sodium methylate or potassium tert-butoxide as the alkaline catalysts.

The manufacture of novolaks produces either open chain or cyclic products. In the case of open-chain novolaks, the two free valences in the above formulas are each saturated by hydrogen atoms, while in the case of cyclic novolaks the two free valences close the ring together. The linear novolaks are brittle to soft resins, the cyclic white or yellowish solids that melt above 300 ° C. Both types are mixtures of multi-chain phenols or alkylphenols linked by methylene bridges.

The oxyalkylation of the linear novolaks is carried out by known processes with alkylene oxides in the presence of alkaline catalysts at about 100-210 ° C, preferably 140-180 ° C. Alkaline catalysts which are particularly suitable are alkali metal hydroxides such as potassium hydroxide or preferably sodium hydroxide or alkali metal alcoholates such as sodium methylate or potassium tert-butoxide. The concentration of these alkaline catalysts should preferably be 0.05 to 1.0% by weight, based on the novolak resin. The oxyalkylation can be carried out without pressure or in pressure vessels, and the alkylene oxide can be supplied in gaseous or liquid form. The amount of the alkylene oxide is measured so that 10-50 alkylene oxide residues are introduced on average to each phenolic hydroxyl group of the novolak resin. The oxyalkylation of the high-melting cyclic novolaks can be carried out according to US Pat. No. 4,032,514, Example 13C in a xylene suspension. After the oxyalkylation, the xylene can remain as a water entrainer in the esterification in the oxyalkylate.

The novolak oxalkylates are esterified by known methods with carboxylic acids without or in the presence of azeotropic entraining agents with carboxylic acid derivatives, such as carboxylic acid halides, anhydrides or by transesterification with C ₁ to C ₄ alkyl esters of the carboxylic acids. Preferred carboxylic acids are saturated monocarboxylic acids with 2 to 20, in particular with 6 to 18 carbon atoms or mixtures thereof. Examples include: so-called lead fatty acids, 2-ethyl-hexanoic acid, i-nonanoic acid, dodecanoic acid, i-tridecanoic acid, stearic acid, i-stearic acid or oleic acid.

These carboxylic acids can be partially replaced by carboxylic acids with 2-5 carbon atoms, e.g. B. Acetic acid to be replaced.

The properties of the compounds described above, in particular the water solubility and the foaming behavior, are influenced by the length of the radicals R and R ", by the size of the value for X and by the degree of oxyalkylation, expressed by the indices m and n. that the solubility in water decreases with increasing size of the radicals R and R ₁ and with a decreasing degree of oxalkylation. Suitable variations of these substituents can in any case achieve the desired solubility in water. The cloud points, measured in a 1% strength aqueous solution, should be above 25 ° C. , preferably above 30 ° C.

General manufacturing instructions

Table A below shows a number of esterified novolak resins to be used according to the invention. These compounds are obtained according to the following regulation.

The alkylphenol is placed together with a catalytically effective amount of p-toluenesulfonic acid in a flask and heated. A 35% formaldehyde solution is then slowly added dropwise, the amount of formaldehyde being determined by the size of the respective value for X in the table. After the exothermic reaction has subsided, the mixture is refluxed for about 16 hours. The water is then completely distilled off at 120-140 ° C., first under normal pressure, then under reduced pressure. After cooling, the novolak is obtained as a brittle, almost colorless resin.

The novolak thus obtained is introduced into an autoclave together with 1.1 g of sodium hydroxide. The air is displaced by nitrogen and it is heated to 150-170 ° C. At this temperature, liquid ethylene oxide or a mixture of ethylene oxide and propylene oxide is introduced until the weight increase in the autoclave has reached the total molar amount indicated under A in the table. Then it is stirred for another hour.

A mixture of the oxyalkylated novolak, a catalytically effective amount of p-toluenesulfonic acid and the amount of acid of the formula R _L -COOH required in each case are introduced into a stirred vessel equipped with a stirrer and cooler, and the mixture is stirred at a temperature of about 170 for as long as possible ° C heated until no more water distilled off and the acid number has dropped to a value below 3. The esterification product is thus obtained in the form of a brown substance with an oily to waxy consistency.

The amounts of esterified oxalkylated novolaks required for the production of the metalworking agents according to the invention can vary within wide limits.

An application concentration of less than 10% by weight is generally sufficient for the usual metalworking operations. It is an advantage of the metalworking agents according to the invention that they are effective even at low concentrations. Thus, with the new metalworking agents, a satisfactory effect can still be achieved at concentrations of about 0.5% by weight. The concentration of use of the metalworking agents, as in the case of known agents, depends primarily on the type of processing of the workpieces. At In usual processes, the application concentration of the new metalworking agents is in the range of about one to eight percent by weight. In special cases, however, the values given above can also be exceeded or fallen short of. In the case of particularly heavy metalworking processes, it may be appropriate to use solutions containing esterified oxyalkylated novolaks of up to about 25% by weight.

The water-soluble lubricants can also other additives such. B. amines and conventional corrosion inhibitors from the carboxylic acid series and / or fatty acid-amine condensation products and / or boric acid alkanolamides.

The results of comparative tests reported below show that the metalworking fluids according to the invention can withstand very high loads and that they have significantly better load and wear resistance properties than the known preparations. The metalworking fluids according to the invention are due to their very good lubricating and cooling properties both for fast metalworking operations such as turning, milling, drilling, grinding, etc., which usually only involve a relatively low load on the lubricant, and also for heavy work operations, such as, for. B. tapping, in which the lubricant is exposed to a large load, equally well suited.

In the following examples, the parts by weight and the percentages mean percentages by weight, unless expressly stated otherwise.

For the quality assessment of the metalworking agents according to the invention and for comparison with aqueous solutions of known lubricant components, the friction wear balance according to Reichert was used. This device essentially consists of two interchangeable steel friction partners of different hardness, one of which, a slip ring, is movable and the other, a test roller, is rigidly arranged. During the test, the slip ring and test roller are pressed axially crossed on each other using a double lifting system with a defined force. The slip ring is partially immersed in the metalworking fluid to be examined and at the same time executes a rotary movement, with constant lubricant transport to the wear zone between the test roller and the test ring being guaranteed.

The rotary movement creates a more or less large elliptical wear mark depending on the pressure absorption capacity of the respective lubricant on the test roller. On this abrasion surface created after a certain running time and the respective contact pressure, a numerical value with the dimension [kp / om ² ] results, which is referred to as "specific surface pressure" and is used as a measure of the load-bearing capacity of lubricating films. (See magazine "Mineralöl-Technik" 3 [1958] No. 2, pages 1-17.)

The tests were carried out on aqueous solutions with increasing active substance contents of esterified, ethoxylated novolaks or EO / PO block polymers of 1, 2 and 5% by weight.

The metalworking fluids were produced by dissolving the active substances in drinking water of 20 ° dH.

The results of the comparative tests are summarized in the table below.

The measurement results show the clearly superior lubricating properties of the metalworking aids according to the invention. It has been shown that the new lubricants according to the invention can withstand very high loads and that they have a significantly better load resistance and better wear properties than aqueous solutions of already known lubricants.

The lubricants according to the invention are therefore not only very suitable as aids for normal metalworking operations such as turning, drilling, grinding and the like, which generally involve a comparatively low load on the lubricant, but they are also advantageous for very heavy machining operations such as, for . B. Use thread cutting.

Claims (2)

1. Method of use of compounds of the formula (1)

wherein R is hydrogen, C₁―C₁₂atkyt or C₂―C₁₂alkenyl, R, is C₁―C₁₉alkyl or C₂―C₁₉alkenyl, A is a group of the formulae

X is an integer from 0 to 15 and the numerals for m and n are chosen such that the total content of ethylene oxide and/or propylene oxide in the molecule amounts to 10 to 800 alkylene oxide units, in water-soluble lubricants.

2. Method of use of such compounds of formula 1 of claim 1 in water-soluble lubricants, wherein R is hydrogen or C₁―C₄alkyl, R₁ is C₆―C₁₈alkyl or C₆―C₁₈alkenyl, A is a group of the formula

X is an integer of from 1 to 9 and the numeral for m and n is chosen such that the total content of ethylene oxide in the molecule amounts to 40 to 200 ethylene oxide units.