US3265621A - Lubricants containing a hydrocarbon diester of 1, 1'-di-alpha-hydroxy-ethyl ferrocene - Google Patents

Description

United States Patent LUBRICANTS CONTAiINfNG A HYDROCARBON DIESTER OF 1,1'-DI-oc-HYDROXY-ETHYL FER- ROCENE Edwin L. De Young, Milwaukee, Wis., assiguor to Standand Oil Company, Chicago, Ill., a corporation of Indiana No Drawing. Original application May 22, 1961, Ser. No. 111,437, now Patent No. 3,217,019, dated Nov. 9, 1965. Divided and this application Dec. 16, 1964, Ser. No. 423,624

3 Claims. (Cl. 252- 191) This is a division of application Serial No. 111,437, filed May 22, 196 1, and now US. Patent No. 3,217,019.

This invention relates to monocarboxylic acid diesters of 1,1-di-alpha-hydroxy-ethyl ferrocene. The esters are useful as addition agents for oleaginous compositions such as hydraulic fluids, synthetic oils, greases, fuels and lubricating oils especially for use in lubricating alloy bearings in heavy duty diesel engines.

The compounds of this invention are the C to C monocarboxylic acid diesters of l,l-di-alpha-hydroxy-ethyl ferrocene.

Examples of compounds of this invention are the aromatic, open chain aliphatic and cyclo aliphatic monocanboxylic acid diesters of 1,1-di-alpha-hydroxy-ethyl ferrocene. More specifically, the 1,1'-di-al-pha hydroxy-ethyl ferrocene diesters of the following car-boxylic acids are intended within the scope of the present discovery: formic acid, acetic acid, propionic acid, butyric acid, caprylic acid, caproic acid, capric acid, myristic acid, stearic acid, v

oleic acid, linoleic acid, docosanoic acid, palmitic acid, naphthenic acid, naphthalenic acid, anthracenic acid, benzoic acid, nonyl benzoic acid, phenyl acetic acid, 8- phenyl caprylic acid, i-laurylna-phthalenic acid, hexahydrobenzoic acid, abietic acid, linolenic acid, dodecadienic acid, Valerie acid, crotonic acid, acrylic acid, vinyl acetic acid, 4-phenyl crot-onic acid, cyclopropane-carboxylic acid, cyclopentanecarboxylic acid, cyclopentene-carboxylic acid, tetrahydrobenzoic acid, cyclo-octane-carboxy1ic acid, cyclobutane-carboxylic acid, cyclo-octatetraene-carboxylic acid, cyclo-heptane-carboxylic acid, as well as the alkylated derivatives and homologues of the above.

The compounds of this invention are believed to correspond to the following structural formula:

wherein R is the hydrocarbon group derived from the carboxylic acid, i.e. contains from 1 to 22 carbon atoms as defined above.

The diesters of this invention are prepared by reacting one mole of 1,1-di-.alpha-hydroxy-ethyl ferrocene with 2 moles of corresponding monocarboxylic acid. Advantageously, a hydrogen chloride acceptor, e.g. .an amine such as dimethyl aniline, may be included in the reaction mixture to tie up free hydrogen chloride. The reaction is that of an acid chloride with an alcohol and is well known to the art. The conditions for the reaction are also well known to the art, although it is preferred to carry out the reaction at a temperature above about 100 F., e.g. in the range of 100-300 F.

As a typical preparation of a carboxylic acid diester of 1,1-di-alpha-hydroxy-ethyl ferrocene, to a solution of 1,1-

heavy oils normally used as fuels.

"ice

trated to give a product which had an iron content of 3.64%, the dicaprylyl diester of 1,1-di alpha-hydroxy-ethyl ferrocene. This particular product is especially preferred for use as a wear inhibitor in lubricating oils used for the lubricating of silver alloy bearings in heavy duty diesel engines.

A particular advantage of the compounds of this" invention flows from the ability to inhibit wear of silver bearings, eg those used in heavy duty diesel engines, under conditions of bearing operation while still retaining good oxidation stability of the lubricating oils. Many silver alloy bearing wear inhibitors also function to reduce the oxidation stability of the lubricating oil and permit the formation of acids from the deterioration of the lubricating oil, which acid, particularly in the presence of water, are corrosive toward ferrous metal parts with which they come into contact. The compositions of this invention improve the oxidation stability and also impart rust inhibition and protection of ferrous metal parts.

The compounds of this invention may also be added to internal combustion engine fuels or lubricants to improve octane requirement increase (ORI) and to suppress the formation of combustion chamber deposits. The compound-s are also useful in oleaginous bases (base oils) generally as rust inhibitors and, where necessary, as oxidation stabilizers. For use as rust inhibitors in base oils, it is preferred that the diesters be the non-cyclic (open chain) hydrocarbon monocarboxy-lic acid diesters having a straight chain containing from 6 to 22 carbon atoms. However, it is to be understood that all compounds herein disclosed may be advantageously used in base oils as rust inhibitors.

The oleaginous bases, i.e. oleaginous vehicles, useable in compositions with the compounds of this invention are well known in the art. Such base oils include oils used for lubricating purposes, as fuels, as cutting oils, as slushing compound vehicles, as grease bases, as metal-working oils, as insecticide carriers, as mold lubricants, etc. More specifically, such oils include the lubricating oils such as the mineral lubricating oils as well as both other hydrocarbon oils, both natural and synthetic, forexample, those obtained by polymerization of olefins. The base oil may be a synthetic oil of the alkylene oxide type and the monoand poly-canboxylic acid ester type, e.g. the oil-soluble esters of adipic acid, sebacic acid, azela-ic acid, etc. The lubricating oils may be the light oils used as break-in oils in internal combustion engines or heavier oils used for normal lubricating of internal combustion engines, also contemplated are the heavier lubricating oils used in lubrication of differentials and other gearboxes as well as industrial machinery. The lubricating oils may contain other addition agents, e.g. thickening agents in an amount sufiicient to thicken them to grease consistency.

Additionally,- the addition agents are useful in light and The fuels may be distillate fuels or residualor blends thereof as well as blends of distillate and residual fuels aone. The fuels may be gasoline, leaded or unleaded, as Well as diesel fuels, heater oils, furnace oils and other oils used in burner installations, virgin gas oil, light catalytic cycle oils, medium and heavy catalytic cycle oils, heavy industrial fuels (e.g. bunker C), heater oil fractions, jet fuels, kerosene, gas oil, etc.

Slushing compositions containing the addition agents disclosed herein as rust inhibitors are also contemplated.

Such slus-hing oils conventionally use oleaginous bases as carriers for the rust inhibiting compound. The oleaginous base is preferably a liquid solvent for the rust inhibitor. Such base oils include many of the oils mentioned above, as well as crude oil, xylene, benzene, low melting hydrocarbon waxes, alcohols, thickened lubricating oils, hydrocarbon oils generally, etc. Also contemplated are metal working oils such as the light lubricating oils, e.g. SAE 5 through SAE 20, and the light metal cutting oils which may include oils such as white oils, kerosene, low

-molecular weight ester oils and the like.

The slushing compositions as defined above are useful in the general uses for slushing compounds, i.e. the coating of ferrous metal surfaces to protect against rusting and corrosion. In such application, such surfaces as tank walls, concrete forms, structural ferrous members and walls, and the like, may be advantageously protected against rusting by using slushing compounds disclosed herein. When using compounds of this invention in slushing oils, it is advantageous to include them in amounts of from about 0.01 to about 25 weight percent (although 0.5 weight percent is usually suflicient).

In use in lubricating oils, it may be advantageous to use from about 0.0001 to or more depending upon the severity of conditions to which the lubricating oil is exposed. Amounts in excess of 10% may be used where desirable or necessary. Where the compositions of this invention are used as rust inhibitors in engine lubricating oils, it is preferred to use from about 0.001 to about 1 weight percent. For other uses, amounts may be employed as necessary or desirable. The compositions of this invention may also be compounded in concentrates in a base oil or other solvent for any of the above uses,

e.g. as concentrates containing from to 70% of the rust inhibitor compound. The amounts given hereinabove are given as suggested guides to those skilled in the art and are not limiting on the present invention.

In the preferred use of the compounds as silver wear and oxidation inhibitors in diesel lubricating oils, 0.01 to 1% is usually suflicient although amounts up to 5% or more may advantageously be employed.

In order to further show the utility of the compounds of this invention, a blended mineral lubricating oil having a viscosity of 80 Saybolt seconds at 210 F., containing 2.8% of a neutralized phosphorus sulfide-hydrocarbon reaction product as a detergent, 0.2% of sulfurized terpene and 1.0% of calcium phenol sulfide as an oxidation inhibitor, was used as a base oil and 0.2% of the dicaprylyl diester of 1,1-di-alpha-hydroxy-ethyl ferrocene was added thereto and tested in accordance with the silver Falex wear test. For comparison purposes, the same base oil without the compound of this invention was also tested in accordance with the same procedure. In accordance with the Falex test, the compositions were tested in Falex testing machine using a silver bearing. Briefly, the machine consists of two plates having opposing grooves with a silver bearing in the grooves and positioned between the plates. Pressure is exerted against the bearing from both plates while the bearing is rotated. After a given period of time, the bearing is removed and weighed and the weight is compared to the weight of the bearing before the test. The difference in weight, i.e. weight lost due to wear, is reported below for each sample.

Weight loss, mg. 275

The data of the above table demonstrate the ability of the present addition agents to inhibit wear of silver alloy bearings, the preferred use for compounds of this invention.

The dicaprylyl of diester 1,1-di-alpha-hydroxy-ethyl ferrocene was also tested for rust inhibiting properties in the ASTM-D-665 rust test. Accordingly, the compound was included in a lubricating oil base and tested for rust preventing characteristics of the oil containing the additive in the presence of water. The test procedure is described in the 1949 book of ASTM Standards, Part 5, pages 967-971. The concentration of the additive used in the oil and the results of the test were as follows.

Concentration of additive: Test results 0.1% Perfect rust inhibition 0.01% Perfect rust inhibition The rust test carried out above not only demonstrates the ability of the compounds of this invention to impart rust inhibiting properties to a lubricating oil but also demonstrates that the compounds of this invention do not adversely affect the oxidative stability of the oil and actually act as oxidation inhibitors. The compositions of this invention suppress oxidation of the oil and resulting rusting of ferrous metals.

It is evident from the foregoing that I have provided new and useful diesters of 1,1'-di-alpha-hydroxy-ethyl ferrocene and rust inhibited oleaginous compositions containing the same. As a particular contribution, I have provided compositions which are useable as silver alloy bearing wear inhibitors which do not adversely affect and, in fact, improve the oxidation stability of lubricating oils.

I claim:

1. A composition comprising a major amount of a lubricating oil and an effective anti-wear amount of hydrocarbon monocar'boxylic acid diester of 1,1-di-alphahydroxy-ethyl ferrocene whose hydrocarbon group has from 1 to 22 carbon atoms.

2. The composition of claim 1 wherein the lubricating oil is a hydrocarbon oil.

3. The composition of claim 1 wherein the lubricating oil is a diesel engine lubricating oil and said compound is present in an amount sufficient to inhibit silver alloy rbearing wear.

References Cited by the Examiner UNITED STATES PATENTS 2,810,737 10/1957 Haven 252-386 X 2,831,880 4/1958 Benkeser 252-386 X 2,849,469 8/1958 Graham 252-386 X 2,849,470 8/1958 Benson 252-386 X 2,859,233 11/1958 Graham et al 44-68 X 2,875,223 2/ 1959 Pedersen 252-386 X 2,988,564 6/1961 Graham 252-386 X 3,064,026 11/1962 Rausch 252-386 X 3,069,449 12/1962 Gorsich 252-497 X FOREIGN PATENTS 163,636 1/ 1954 Australia.

0 DANIEL E. WYMAN, Primary Examiner.

P. P. GARVIN, Assistant Examiner.

Claims (1)

1. A COMPOSITION COMPRISING A MAJOR AMOUNT OF A HYDROCARBON MONOCARBOXYLIC ACID DIESTER OF 1,1''-DI-ALPHALUBRICATING OIL AND AN EFFECTIVE ANTI-WEAR AMOUNT OF HYDROXY-ETHYL FERROCENE WHOSE HYDROCARBON GROUP HAS FROM 1 TO 22 CARBON ATOMS.