US3057804A - All-weather surface cleaner - Google Patents

All-weather surface cleaner Download PDF

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US3057804A
US3057804A US738285A US73828558A US3057804A US 3057804 A US3057804 A US 3057804A US 738285 A US738285 A US 738285A US 73828558 A US73828558 A US 73828558A US 3057804 A US3057804 A US 3057804A
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water
group
mixture
naphtha
cleaner
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Berkeley Bernard
Schoenholz Daniel
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Foster D Snell Inc
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Foster D Snell Inc
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    • CCHEMISTRY; METALLURGY
    • C11ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
    • C11DDETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
    • C11D9/00Compositions of detergents based essentially on soap
    • C11D9/002Non alkali-metal soaps
    • CCHEMISTRY; METALLURGY
    • C11ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
    • C11DDETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
    • C11D3/00Other compounding ingredients of detergent compositions covered in group C11D1/00
    • C11D3/43Solvents

Definitions

  • This invention relates to the removal of soil from the surfaces of aircraft.
  • This invention is directed to products for cleaning aircraft which are suitable for use under varying temperature conditions; are especially useful under low temperature conditions; and are characterized by stability at temperatures as low as 65 F.; and methods of rinsing said products with organic solvents or aqueous media.
  • the soil deposited on the surfaces of operating aircraft generally can be characterized as oily-type and/ or traffic film-type.
  • the oily-type soil consists primarily of oil and carbonaceous substances originating from the engine and the points of lubrication.
  • the tratfic film-type of soil consists largely of air-borne dirt, salts, inert materials, etc.
  • Another object of this invention is to provide products for use as cleaners for aircraft which are characterized by freeze-thaw stability over the range from 65 F. to room temperature, circa 75 F.
  • a further object is to provide products for use as cleaners within the ambit of the primary objectives just mentioned characterized by such features as: high flash point; low toxicity; non-injurious efiect on the structural materials of aircraft such as the metals, transparent and laminated plastics, and standard finishes thereof; excellent freeze-tthaw stability; and rinsability with organic solvents or water or aqueous solutions of suitable fluidity at operating temperatures.
  • the cleaning products which make the foregoing objects, as well as other objects and advantages, capable of accomplishment and which remove both oilyand traffic film-type soils when used above and below 32 F. consist of, or are based on, a fundamental or primary or basic cleaner, said primary or basic cleaner being rinsable by a hydrocarbon solvent.
  • a fundamental or primary or basic cleaner for use with aqueous rinses, that fundamental cleaner is supplemented with an addtional or supplementary component.
  • the basic cleaners are emulsion compositions consisting essentially of three components, to wit: (1) 'an organic solvent continuous phase, (2) an aqueousdispersed phase consisting of water and a freezing point depressant, and (3) an emulsifying agent. These basic cleaners may be rinsed ofl principally with a hydrocarbon solvent.
  • the organic solvent component of the basic cleaner dissolves and removes organic soils. It also contributes physically to the removal of solid soils such as dust and tratlic film.
  • the aqueous component of the basic cleaner facilitates the removal of solid soils such as dust and traflic film, and water-soluble inorganic soils, and contributes to the removal of inert particles by minimizing the redeposition thereof.
  • the freezing point depressant of the aqueous component (dissolved in water prior to the dispersion thereof in the composition) prevents freezing of the water at temperatures down to 0 F. and maintains stability at temperatures as low as minus 65 F.
  • the emulsifying component assists in removal of solid soil and provides means for incorporating water in the base solvent in such wise as to produce a sub-microscopically fine dispersion of the water in the base solvent.
  • the cleaners For use with water or aqueous rinses, the cleaners consist essentially of the basic cleaners just described plus supplementary emulsifiers.
  • the supplementary emulsifiers render the cleaners self-emulsifying with aqueous rinses. Where the temperatures are below 32 F. the water rinses include a freezing point depressant.
  • These cleaners can also be rinsed ofi with hydrocarbon solvents.
  • These wateror aqueously-rinsable cleaners consist essentially of an amount of: about from to percent of the basic cleaner and about from 5 to 25 percent of the supplementary emulisiflers.
  • the organic solvent component of the basic cleaners is generally a naphtha having a suitably high flash point, as for example, 80 F. or higher.
  • a naphtha having a suitably high flash point as for example, 80 F. or higher.
  • Illustrative thereof are products such as Soltrol 170, a naphtha having a flash point of 180-l90 F., made by Phillips Petroleum Co., Bartlesville, Okla.; Amsco 140, a naphtha having a flash point of 145 F., sold by American Mineral Spirits Co., New York, N.Y.
  • the organic solvent may consist of a plurality of solvents or a mixture of one or more suitable naphthas and one or more chlorinated hydrocarbons such as methylene chloride or trichloro-ethanes such as 1,1,l-trichloroethane, etc.
  • amine soaps or a plurality of amine soaps, as for example various amine oleates. They may be used either in the preformed state, or conveniently prepared in the course of manufacturing the cleaners.
  • amine oleates are those wherein the amine moiety is an alkyl radical having from 2 to about 8 carbon atoms, preferably from 3 to 6 carbon atoms.
  • the suitability of an amine o'leate may be readily ascertained by. simple test in the laboratory to determine the ability thereof to form water-in-oil emulsions that are transparent or virtually 3 the formation of stable water-in-oil compositions may readily be ascertained by a simple preliminary testing.
  • &1itable freezing point depressants are: methanol, ethanol, propanol, ethylene glycol, etc.
  • the total amount of amine soap required to form stable water-in-solvent systems depends upon the quantity of water to be emulsified and the particular amine soap or combination of amine soaps employed. Generally the minimum proportions of soap-to-water on a weight to weight basis ranges from 1:1 up to 7:1 as the water content of the cleaning composition increases from 0.5 percent to 3 percent.
  • the amount of the soaprequired to form a stable water-in-solvent system can accordingly be readily ascertained by preliminary tests, the formation of a transparent composition being an excellent indicator of the desired stability.
  • emulsifiers for example, sodium sulphate derivative of 3,9-diethyl tridecanol-6 (available commercially as Tergitol 7, a product of Carbide and Carbon Chemical Co., New York, N.Y.)
  • anionic surface active agents such as sodium sulphate derivative of 3,9-diethyl tridecanol-6 (available commercially as Tergitol 7, a product of Carbide and Carbon Chemical Co., New York, N.Y.)
  • fatty alkylol amide condensates relatively high molecular alkyl primary amines, i.e., primary aliphatic amines whereof the carbon chain varies in length from 10 to 18, high molecular weight fatty diamines having the general structure RNH(CH NH wherein R varies in chain length from C to C and n is 2 or 3.
  • the fatty alkylol amide condensate is available as Alrosol O, a product of Geigy Chemical Corporation, Ardsley, N.Y.
  • an alkyl primary amine such as a tertiary alkyl primary amine is available as Primene J M T, Rohm & Haas Co., Philadelphia, Pa.
  • the Primenes are mix- 'tures of high molecular weight amines principally in the 18 to 21 range of carbon atoms. They have excellent solubility in oils and petroleum hydrocarbons and are useful as stabilizers and sludge inhibitors in fuel oil and other light oils, and as detergent, antioxidant and corrosion inhibiting additives in all varieties of petroleum products.
  • the supplementary emulsifier may be used in the form of a mixture of Alrosol O and Primene J M T, or Alrosol alone.
  • the Alrosol 0 may also be used in admixture with the aforesaid primary or secondary amines and alkyl-aryl-polyether alcohols, such as for example Triton X-100, Rohm & Haas Co., Philadelphia, Pa.; alkali salts of petroleum sulphonic acids, such as ammonium petroleum sulphonate, available as Ammonium Petronate and Petronate," L. Sonneborn Sons, New York, N.Y., etc.
  • Suitable replacements for Alroso are non-ionic emulsifiers, especially water free, prepared by the condensation of secondary hydroxylated amines such as diethanolamine with fatty acids, having a carbon content of about 12 to 20 carbon atoms.
  • Emcol P 5100 Emcol P 5130 from Emulsol Corporation
  • Drew 1011 E. F. Drew Co.
  • Hymolon K Hart Products Corp., New York, N.Y.
  • Ninol 201 Ninol Laboratories, Inc., Chicago, 111., etc.
  • the supplementary emulsifiers may be incorporated with the basic cleaners to provide a finished composition at the time of manufacture, or the supplementary emulsifiers may be added to the basic cleaners when desired.
  • the user can select a wash-rinse system on the basis of operating temperatures and availability of rinse materials.
  • the aforementioned ingredients may be combined in a single mixing tank. If desired a smaller tank, as for example one-tenth the size of the main tank, may be used for stoichiometric amounts of the isopropylamine with the oleic acid. With vigorous stirring the amine is added to the oleic acid. If desired some cooling may be used to dissipate the heat resulting from the interaction of the amines and the oleic acid. When cooled to room temperature, circa 75 F. or lower, a mixture of the water and methanol are added to the amine soap and thoroughly stirred to insure uniformity. The mass thus produced has a soft grease-like consistency. Then the naphtha is slowly stirred into the mass. The resulting product is ready for use.
  • Example 3 An all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance with the general procedure described in Example 1 has the following composition:
  • High flash naphtha e.g., Amsco 87.3
  • Example 4 An all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance with the general procedure described in Example 1 has the following composition:
  • Example 5 An all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance with the general procedure described in Example 1 has the following composition:
  • Example 6 An all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance with the general procedure described in Example 1 has the following composition:
  • Solvent a blend of: a solvent naphtha having a boiling point within the range of 365-410 F. and a flash point of l40l42 F., e.g.,
  • Example 7 An all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance with the general procedure described in Example 1 has the following composition:
  • Example 8 An all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance with the general procedure described in Example 1 has the following composition:
  • High flash naphtha e.g., Soltrol 170 86.84
  • Example 9 An all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance with the general procedure describedv in Example 1 has the. following composition:
  • Example 10 In an all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance at this point.
  • Example 1 with the general procedure described in Example 1 has the following composition:
  • Example 11 An all weather cleaner for aircraft suitable for use with aqueous rinses or organic solvent rinses has the following composition:
  • the aforementioned ingredients may be combined in a single mixing tank. If desired, a smaller supplementary tank, as described in Example 1, may be used for the preliminary mixing of all the ingredients but the naphtha. Diethylamine, triethanolamine and oleic acid in stoichiometric proportions are mixed as described in Example 1. When cooled to a temperature of F. or lower, there may then be added thereto Tergitol 7 and the ethylene glycol, and the mass then thoroughly stirred to insure uniformity. The mass has a soft grease-like consistency Then the Alrosol O and Primene J M T are added thereto. When that mixture becomes homogeneous, the naphtha may then be slowly stirred into the homogeneous mass to produce the final product.
  • an aqueous solution that can be used at very low temperature is a composition as follows: 40 parts by volume of ethylene glycol, 10 parts by volume of isopropanol and 50 parts of water.
  • Example 11 has the Parts By Percent By Weight Weigh Base Cleaner:
  • Example 14 An all weather cleaner for aircraft suitable for use either with aqueous or organic solvent rinses, made in accordance with the procedure of Example 11, has the following composition:
  • a water-in-oil emulsion cleaning composition consisting essentially of:
  • an emulsifying agent selected from the group consisting of (a) an oleic acid soap of an alkylamine whereof the alkyl radical has from 2 to 8 carbon atoms and (b) a mixture of a soap as defined in (a) and an oleic acid soap of a hydroxylated lower alkylamine whereof the carbon chain has from 2 to 3 carbon atoms,
  • the minimum proportions by weight of soapto-water are in the range of about 1:1 to 7:1 as the water content increases from the aforesaid minimum to maximum and wherein the amounts of the soaps in mixture 3(b) are proportioned to maintain stability of the waterin-oil emulsion.
  • a water-in-oil emulsion cleaning composition consisting essentially of from 75 to of a composition in accordance with claim 1 and from 25 to 5% of a suppementary emulsifier selected from the group consisting o primary aliphatic amines whereof the carbon chain has from 10 to 18 carbon atoms, and
  • a water-in-oil emulsion cleaning composition consisting essentially of:
  • a water-in-oil emulsion cleaning composition consisting essentially of: A blend of: Parts by weight High flash naphtha, 75 volume percent 89 3 Methylene-chloride, 25 volume percent Diethylamine olea 2.7 Triethanolamine oleate 5.3 Water 1.5 Methanol 1.2
  • a water-in-oil emulsion cleaning composition con- 10.
  • a water-in-oil cleaning composition consisting essentially of:
  • a water-in-oil emulsion cleaning composition consisting essentially of:
  • a method of cleaning aircraft which comprises washing the aircraft with a composition in accordance with claim 1, followed by the rinsing thereof with an organic solvent rinse selected from the group consisting of kerosene, mineral spirits and Stoddard solvent.
  • a method of cleaning aircraft which comprises washing the aircraft with a composition in accordance 9 10 with claim 4, followed by the rinsing thereof with a mem- 2,466,632 Borus Apr. 5, 194 ber of the group consisting of 2,576,419 Secrist et a1 Nov. 27, 1951 (1) an aqueous rinse and 2,606,874 Garner et a1. Aug. 12, 1952 (2) an organic solvent selected from the group con- HER sisting of kerosene, mineral spirits and Stoddard 5 REFERNCES solvmt Aloohols," publication of Carbide and Carbon Chem.

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Description

United States Patent 3,057,804 ALL-WEATHER SURFACE CLEANER Bernard Berkeley, Valley Stream, and Daniel Schoenholz, Bayswater, N.Y., assignors to Foster D. Snell, Inc., New York, N.Y.,a corporation of New York No Drawing. Filed May 28, 1958, Ser. No. 738,285
13 Claims. (Cl. 252-118) This invention relates to the removal of soil from the surfaces of aircraft. In particular it is directed to products for cleaning aircraft which are suitable for use under varying temperature conditions; are especially useful under low temperature conditions; and are characterized by stability at temperatures as low as 65 F.; and methods of rinsing said products with organic solvents or aqueous media.
The soil deposited on the surfaces of operating aircraft generally can be characterized as oily-type and/ or traffic film-type. The oily-type soil consists primarily of oil and carbonaceous substances originating from the engine and the points of lubrication. The tratfic film-type of soil consists largely of air-borne dirt, salts, inert materials, etc.
Heretofore the removal of such soil has depended upon the use of detergent concentrates which are diluted with naphtha solvents prior to application. Such has been the practice in cleaning operations of both civilian and military aircraft. These compositions, in the concentrations used,.are applied to the soiled surfaces and after an appropriate contact time are flushed off with a high pressure water spray. These systems function tolerably well at temperatures higher than 32 F., and preferably within the range of 65 F. to 125 F. However, they are not workable below the freezing point of water and exhibit reduced performance properties when used at temperatures below the preferred range. Because of such limitations, the surface cleaning of aircraft is now considered impractical in cold zones. In the arctic regions, cleaning operations are avoided; and in consequence thereof, the planes are flown to sites where the temperature conditions are more favorable for use of the detergents.
It has now been found that the cleaning of soiled aircraft surfaces can be accomplished at low temperatures by means of novel products and the wash-rinse systems in accordance with the present invention.
Accordingly, it is among the principal objects of this invention to provide means and methods for cleaning aircraft which are effective over a wide temperature range, and especially at low temperatures.
Another object of this invention is to provide products for use as cleaners for aircraft which are characterized by freeze-thaw stability over the range from 65 F. to room temperature, circa 75 F.
A further object is to provide products for use as cleaners within the ambit of the primary objectives just mentioned characterized by such features as: high flash point; low toxicity; non-injurious efiect on the structural materials of aircraft such as the metals, transparent and laminated plastics, and standard finishes thereof; excellent freeze-tthaw stability; and rinsability with organic solvents or water or aqueous solutions of suitable fluidity at operating temperatures.
The cleaning products which make the foregoing objects, as well as other objects and advantages, capable of accomplishment and which remove both oilyand traffic film-type soils when used above and below 32 F. consist of, or are based on, a fundamental or primary or basic cleaner, said primary or basic cleaner being rinsable by a hydrocarbon solvent. For use with aqueous rinses, that fundamental cleaner is supplemented with an addtional or supplementary component.
ice
The basic cleaners are emulsion compositions consisting essentially of three components, to wit: (1) 'an organic solvent continuous phase, (2) an aqueousdispersed phase consisting of water and a freezing point depressant, and (3) an emulsifying agent. These basic cleaners may be rinsed ofl principally with a hydrocarbon solvent.
The organic solvent component of the basic cleaner dissolves and removes organic soils. It also contributes physically to the removal of solid soils such as dust and tratlic film. The aqueous component of the basic cleaner facilitates the removal of solid soils such as dust and traflic film, and water-soluble inorganic soils, and contributes to the removal of inert particles by minimizing the redeposition thereof. The freezing point depressant of the aqueous component (dissolved in water prior to the dispersion thereof in the composition) prevents freezing of the water at temperatures down to 0 F. and maintains stability at temperatures as low as minus 65 F. The emulsifying component assists in removal of solid soil and provides means for incorporating water in the base solvent in such wise as to produce a sub-microscopically fine dispersion of the water in the base solvent.
For use with water or aqueous rinses, the cleaners consist essentially of the basic cleaners just described plus supplementary emulsifiers. The supplementary emulsifiers render the cleaners self-emulsifying with aqueous rinses. Where the temperatures are below 32 F. the water rinses include a freezing point depressant. These cleaners can also be rinsed ofi with hydrocarbon solvents.
These wateror aqueously-rinsable cleaners consist essentially of an amount of: about from to percent of the basic cleaner and about from 5 to 25 percent of the supplementary emulisiflers.
The organic solvent component of the basic cleaners is generally a naphtha having a suitably high flash point, as for example, 80 F. or higher. Illustrative thereof are products such as Soltrol 170, a naphtha having a flash point of 180-l90 F., made by Phillips Petroleum Co., Bartlesville, Okla.; Amsco 140, a naphtha having a flash point of 145 F., sold by American Mineral Spirits Co., New York, N.Y.
The organic solvent may consist of a plurality of solvents or a mixture of one or more suitable naphthas and one or more chlorinated hydrocarbons such as methylene chloride or trichloro-ethanes such as 1,1,l-trichloroethane, etc.
Suitable for use as the emulsifying component of the basic cleaners are: amine soaps, or a plurality of amine soaps, as for example various amine oleates. They may be used either in the preformed state, or conveniently prepared in the course of manufacturing the cleaners. Among such amine oleates are those wherein the amine moiety is an alkyl radical having from 2 to about 8 carbon atoms, preferably from 3 to 6 carbon atoms. The suitability of an amine o'leate may be readily ascertained by. simple test in the laboratory to determine the ability thereof to form water-in-oil emulsions that are transparent or virtually 3 the formation of stable water-in-oil compositions may readily be ascertained by a simple preliminary testing.
&1itable freezing point depressants are: methanol, ethanol, propanol, ethylene glycol, etc.
The total amount of amine soap required to form stable water-in-solvent systems depends upon the quantity of water to be emulsified and the particular amine soap or combination of amine soaps employed. Generally the minimum proportions of soap-to-water on a weight to weight basis ranges from 1:1 up to 7:1 as the water content of the cleaning composition increases from 0.5 percent to 3 percent. The amount of the soaprequired to form a stable water-in-solvent system can accordingly be readily ascertained by preliminary tests, the formation of a transparent composition being an excellent indicator of the desired stability.
It is advantageous to use the freezing point depressants in an amount approximately equal to that of the water.
In addition to the aforementioned emulsifiers, the amine and hydroxylated amine soaps, there may also be included other emulsifying or surface active agents, as for example anionic surface active agents such as sodium sulphate derivative of 3,9-diethyl tridecanol-6 (available commercially as Tergitol 7, a product of Carbide and Carbon Chemical Co., New York, N.Y.)
Among the substances which may be used as the supplementary emulsifiers for addition to the basic cleaners are: fatty alkylol amide condensates, relatively high molecular alkyl primary amines, i.e., primary aliphatic amines whereof the carbon chain varies in length from 10 to 18, high molecular weight fatty diamines having the general structure RNH(CH NH wherein R varies in chain length from C to C and n is 2 or 3. The fatty alkylol amide condensate is available as Alrosol O, a product of Geigy Chemical Corporation, Ardsley, N.Y. Also, an alkyl primary amine, such as a tertiary alkyl primary amine is available as Primene J M T, Rohm & Haas Co., Philadelphia, Pa. The Primenes are mix- 'tures of high molecular weight amines principally in the 18 to 21 range of carbon atoms. They have excellent solubility in oils and petroleum hydrocarbons and are useful as stabilizers and sludge inhibitors in fuel oil and other light oils, and as detergent, antioxidant and corrosion inhibiting additives in all varieties of petroleum products. The supplementary emulsifier may be used in the form of a mixture of Alrosol O and Primene J M T, or Alrosol alone. The Alrosol 0 may also be used in admixture with the aforesaid primary or secondary amines and alkyl-aryl-polyether alcohols, such as for example Triton X-100, Rohm & Haas Co., Philadelphia, Pa.; alkali salts of petroleum sulphonic acids, such as ammonium petroleum sulphonate, available as Ammonium Petronate and Petronate," L. Sonneborn Sons, New York, N.Y., etc. Suitable replacements for Alroso are non-ionic emulsifiers, especially water free, prepared by the condensation of secondary hydroxylated amines such as diethanolamine with fatty acids, having a carbon content of about 12 to 20 carbon atoms. These products are available commercially as Emcol P 5100," Emcol P 5130 from Emulsol Corporation; Drew 1011, E. F. Drew Co.; Hymolon K, Hart Products Corp., New York, N.Y.; Ninol 201, Ninol Laboratories, Inc., Chicago, 111., etc.
The supplementary emulsifiers may be incorporated with the basic cleaners to provide a finished composition at the time of manufacture, or the supplementary emulsifiers may be added to the basic cleaners when desired. By allowing for the addition to the basic cleaner, when desired, of a supplementary emulsifier, the user can select a wash-rinse system on the basis of operating temperatures and availability of rinse materials.
The following are examples of compositions in accordance with the instant invention.
Par-ts by weight High flash naphtha, e.g., Soltrol 170 98.5 Isopropylamine Oleate 0.5 Water 0.5 Methanol 0.5
Total 100.00
The aforementioned ingredients may be combined in a single mixing tank. If desired a smaller tank, as for example one-tenth the size of the main tank, may be used for stoichiometric amounts of the isopropylamine with the oleic acid. With vigorous stirring the amine is added to the oleic acid. If desired some cooling may be used to dissipate the heat resulting from the interaction of the amines and the oleic acid. When cooled to room temperature, circa 75 F. or lower, a mixture of the water and methanol are added to the amine soap and thoroughly stirred to insure uniformity. The mass thus produced has a soft grease-like consistency. Then the naphtha is slowly stirred into the mass. The resulting product is ready for use.
Example 2 Diethylarnine nleate 3'0 Triethanolamine l -at Water 1.5 Ethylene glyc l 1.2
Example 3 An all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance with the general procedure described in Example 1 has the following composition:
Parts by weight High flash naphtha, e.g., Amsco 87.3
n-Butylamine olwlte 5.0 Triethanolamine oleate 5.0 Water 1.5 Ethylene glycol 1.2
Example 4 An all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance with the general procedure described in Example 1 has the following composition:
Parts by weight Soltrol 87.0 Isopropylamine Oleate 10.0 Water 1.5 Methanol 1.5
Example 5 An all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance with the general procedure described in Example 1 has the following composition:
Parts by weight Soltrol 170 5 9,0 Isopropylamine Oleate 35.0 Water 3,0 Methanol 3,0
Example 6 An all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance with the general procedure described in Example 1 has the following composition:
Parts by weight Solvent, a blend of: a solvent naphtha having a boiling point within the range of 365-410 F. and a flash point of l40l42 F., e.g.,
Amsco 140, 75 volume percent Example 7 An all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance with the general procedure described in Example 1 has the following composition:
Parts by weight Example 8 An all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance with the general procedure described in Example 1 has the following composition:
Parts by weight High flash naphtha, e.g., Soltrol 170 86.84
Diethylamine oleate 4.54
Triethanolamine oleate 5.48
Tergitol 7 (contains 75% water) 1.99
Ethylene gly 1.15
Total 100.00
Example 9 An all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance with the general procedure describedv in Example 1 has the. following composition:
Parts by weight Solvent, a blend of:
Soltrol 170, 85.0 vol. percent 88 02 Chlorothene, 15.0 vol. percent Diethylamine oleate 3.0 Triethanolamine oleate 5.97 Water 0.39 Tergitol 7 (contains 75% water) 1.46 Ethylene gly 1.16
Total 100.00
Example 10 In an all weather cleaner for aircraft suitable for use with an organic solvent rinse, prepared in accordance at this point.
with the general procedure described in Example 1 has the following composition:
Parts by weight Solvent, a blend of:
Soltrol 170, 75 vol. percent 88 02 Chlorothene, 25 vol. percent Diethylamine oleate 3.00 Triethanolarnine oleate 5 .97 Water 0.39 Tergitol 7 (contains 75 water) 1.46 Ethylene glycol 1.16
Total 100.00
Example 11 An all weather cleaner for aircraft suitable for use with aqueous rinses or organic solvent rinses has the following composition:
The aforementioned ingredients may be combined in a single mixing tank. If desired, a smaller supplementary tank, as described in Example 1, may be used for the preliminary mixing of all the ingredients but the naphtha. Diethylamine, triethanolamine and oleic acid in stoichiometric proportions are mixed as described in Example 1. When cooled to a temperature of F. or lower, there may then be added thereto Tergitol 7 and the ethylene glycol, and the mass then thoroughly stirred to insure uniformity. The mass has a soft grease-like consistency Then the Alrosol O and Primene J M T are added thereto. When that mixture becomes homogeneous, the naphtha may then be slowly stirred into the homogeneous mass to produce the final product.
This product may be removed (in the rinsing operations) from the surface by washing or flushing with aqueous solutions containing suitable freezing point depressants to enable the rinse to be fluid at the operating temperature. Thus, for example, an aqueous solution that can be used at very low temperature is a composition as follows: 40 parts by volume of ethylene glycol, 10 parts by volume of isopropanol and 50 parts of water.
Example .12
Parts By Percent By Weight Weight Base Cleaner:
Solvent (75 vol. percent Amsco 25 vol.
percent methylene chloride) Dlethylamlne Oleate Trlethannlamine Oleate Mnthmml arm OWNED! Water Supplementary Emulsifier:
Alrosol 0 Primene J M T Example 13 An all weather cleaner for aircraft suitable for use either with aqueous or organic solvent rinses, made in 7 accordance with the procedure following composition:
of Example 11, has the Parts By Percent By Weight Weigh Base Cleaner:
sco l4 88. 8 Diethylamine oleate"--. 2.7 'Iriethanolamine Oleate-. 5.3 Ethylene Glycol 1.2 Teraitol 7 (25% water) 2.0 Supplementary Emulsifier: I
o Primene J M '1 10 10 Example 14 An all weather cleaner for aircraft suitable for use either with aqueous or organic solvent rinses, made in accordance with the procedure of Example 11, has the following composition:
It will be understood that the foregoing description of the invention and the examples set forth are merely illustrative thereof. Accordingly, the appended claims are to be construed as defining the invention within the full spirit and scope thereof.
We claim:
1. A water-in-oil emulsion cleaning composition consisting essentially of:
(1) about 59.0% to 98.5% of a member of the group consisting of (a) naphtha having a flash point of at least about 80 F. and
(b) a mixture of a solvent as defined in (a), and
(c) a member of the group consisting of methylene chloride and trichloroethane,the proportion of a:c in volume percent ranging from 100:0 to 75:25,
(2) l to 6% of a dispersed phase consisting of approximately equal parts of water and a freezing point depressant which is selected from the group consisting of methanol, ethanol, propanol, and ethylene glycol, and
(3) 0.5 to 35.0% of an emulsifying agent selected from the group consisting of (a) an oleic acid soap of an alkylamine whereof the alkyl radical has from 2 to 8 carbon atoms and (b) a mixture of a soap as defined in (a) and an oleic acid soap of a hydroxylated lower alkylamine whereof the carbon chain has from 2 to 3 carbon atoms,
and wherein the minimum proportions by weight of soapto-water are in the range of about 1:1 to 7:1 as the water content increases from the aforesaid minimum to maximum and wherein the amounts of the soaps in mixture 3(b) are proportioned to maintain stability of the waterin-oil emulsion.
2. The detergent composition of claim 1, wherein (l) is naphtha.
3. The detergent composition of claim 1, wherein (l) (a) naphtha and (b) tiichloroethane.
4. A water-in-oil emulsion cleaning composition consisting essentially of from 75 to of a composition in accordance with claim 1 and from 25 to 5% of a suppementary emulsifier selected from the group consisting o primary aliphatic amines whereof the carbon chain has from 10 to 18 carbon atoms, and
a condensate of a fatty acid having from 12 to 20 carbon atoms with diethanolamine.
5. The detergent composition of claim 4, wherein (l) is naphtha. v 6. The detergent composition of claim 4, wherein (1) 1s (a) naphtha and (b) trichloroethane.
7. A water-in-oil emulsion cleaning composition consisting essentially of:
Parts by weight High flash nap 88.3 Diethylamine oleate 3.0 Triethanolamine oleate 6.0 Water 1.5 Ethylene glycnl 1.2
8. A water-in-oil emulsion cleaning composition consisting essentially of: A blend of: Parts by weight High flash naphtha, 75 volume percent 89 3 Methylene-chloride, 25 volume percent Diethylamine olea 2.7 Triethanolamine oleate 5.3 Water 1.5 Methanol 1.2
9. A water-in-oil emulsion cleaning composition con- 10. A water-in-oil cleaning composition consisting essentially of:
Parts by weight High flash naphtha 98.5 Isopropylamine olea 0.5 Water 0.5 Methanol 0.5
11. A water-in-oil emulsion cleaning composition consisting essentially of:
Parts by weight High flash nap h 67.95 Diethylamine oleate 3.55 Tiethanolamine oleate 4.29 Sodium sulfate derivative of 3,9-diethyl tridecanal-6 0.39 Water 1.17 Ethylene glyrnl 0.90
A condensate of a fatty acid having from 12 to 20 carbon atoms with diethanolamine 18.26 Tertiary alkyl primary high molecular amine whereof the carbon content is from 18 to 21 carbon atoms 3.48
12. A method of cleaning aircraft which comprises washing the aircraft with a composition in accordance with claim 1, followed by the rinsing thereof with an organic solvent rinse selected from the group consisting of kerosene, mineral spirits and Stoddard solvent.
13. A method of cleaning aircraft which comprises washing the aircraft with a composition in accordance 9 10 with claim 4, followed by the rinsing thereof with a mem- 2,466,632 Borus Apr. 5, 194 ber of the group consisting of 2,576,419 Secrist et a1 Nov. 27, 1951 (1) an aqueous rinse and 2,606,874 Garner et a1. Aug. 12, 1952 (2) an organic solvent selected from the group con- HER sisting of kerosene, mineral spirits and Stoddard 5 REFERNCES solvmt Aloohols," publication of Carbide and Carbon Chem.
Corp., 1945, pages 3 and 4. Rmmm Patent Glycols, publication of Carbide and Carbon Chem.
UNITED STATES PATENTS Corp., 1941, pages 1 and 2.
2,071,488 Zimmer et a1 Feb. 23, 1937 Q

Claims (1)

1. A WATER-IN-OIL EMULSION CLEANING COMPOSITION CONSISTING ESSENTIALLY OF: (1) ABOUT 59.0% TO 98.5% OF A NUMBER OF THE GROUP CONSISTING OF (A) NAPHTHA HAVING A FLASH POINT OF AT LEAST ABOUT 80*F. AND (B) A MIXTURE OF A SOLVENT AS DEFINED IN (A), AND (C) A MEMBER OF THE GROUP CONSISTING OF METHYLENE CHLORIDE AND TRICHLOROETHANE, THE PROPORTION OF A:C IN VOLUME PERCENT RANGING FROM 100:0 TO 75:25, (2) 1 TO 6% OF A DISPERSED PHASE CONSISTING OF APPROXIMATELY EQUAL PARTS OF WATER AND A FREEZING POINT DEPRESSANT WHICHIS SELECTED FROMTHE GROUP CONSISTING OF METHANOL, ETHANOL, PROPANOL, AND ETHYLENE GLYCOL, AND (3) 0.5 TO 35.0% OF AN EMULSIFYING AGENT SELECTED FROM THE GROUP CONSISTING OF (A) AN OLEIC ACID SOAP OF AN ALKYLAMINE WHEREOF THE ALKYL RADICAL HAS FROM 2 TO 8 CARBON ATOMS AND (B) A MIXTURE OF A SOAP AS DEFINED IN (A) AND AN OLEIC ACID SOAP OF A HYDROXYLATED LOWER ALKYLAMINE WHEREOF THE CARBON CHAIN HAS FROM 2 TO 3 CARBON ATOMS, AND WHEREIN THE MINIMUM PROPORTIONS BY WEIGHT OF SOAPTO-WATER ARE IN THE RANGE OF ABOUT 1:1 TO 7:1 AS THE WATER CONTENT INCREASES FROM THE AFORESAID MINIMUM TO MAXIMUM AND WHEREIN THE AMOUNTS OF THE SOAPS IN MIXTURE (B) ARE PROPORTIONED TO MAINTAIN STABILITY OF THE WATERIN-OIL EMULSION.
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Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3536529A (en) * 1966-05-25 1970-10-27 Exxon Research Engineering Co Tank cleaning operations
US3620712A (en) * 1968-12-24 1971-11-16 Procter & Gamble Single phase composition
US4003856A (en) * 1974-09-23 1977-01-18 Sharp Thomas L Oil-soluble composition for removing iron sulfide and sludge from metal surfaces
US4032360A (en) * 1974-09-23 1977-06-28 Sharp Thomas L Method of removing iron sulfide and sludge from metal surfaces
USRE30125E (en) * 1970-04-13 1979-10-23 Exxon Research & Engineering Co. Liquid membrane process for the separation of aqueous mixtures
USRE30179E (en) * 1970-04-13 1979-12-25 Exxon Research & Engineering Co. Common ion effect to assist LM separation
US4292181A (en) * 1978-10-30 1981-09-29 Exxon Research & Engineering Co. Use of liquid membrane systems for selective ion transfer
US4302365A (en) * 1980-02-11 1981-11-24 American Grease Stick Company Engine degreaser composition
US4360448A (en) * 1970-04-13 1982-11-23 Exxon Research And Engineering Co. Water in oil emulsions useful in liquid membrane
WO2010075129A3 (en) * 2008-12-22 2010-10-07 Henkel Ag & Co. Kgaa Water-based cleaner for cleaning solvent-based paints

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2071488A (en) * 1934-09-26 1937-02-23 Standard Oil Dev Co Antifreeze lubricating grease
US2466632A (en) * 1947-05-05 1949-04-05 Shell Dev Carbon remover and metal surface cleaning composition
US2576419A (en) * 1947-06-04 1951-11-27 Detrex Corp Cleaning composition
US2606874A (en) * 1947-06-23 1952-08-12 Shell Dev Water in oil emulsions containing 1, 2-alkanediols as coupling agents

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2071488A (en) * 1934-09-26 1937-02-23 Standard Oil Dev Co Antifreeze lubricating grease
US2466632A (en) * 1947-05-05 1949-04-05 Shell Dev Carbon remover and metal surface cleaning composition
US2576419A (en) * 1947-06-04 1951-11-27 Detrex Corp Cleaning composition
US2606874A (en) * 1947-06-23 1952-08-12 Shell Dev Water in oil emulsions containing 1, 2-alkanediols as coupling agents

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3536529A (en) * 1966-05-25 1970-10-27 Exxon Research Engineering Co Tank cleaning operations
US3620712A (en) * 1968-12-24 1971-11-16 Procter & Gamble Single phase composition
US4360448A (en) * 1970-04-13 1982-11-23 Exxon Research And Engineering Co. Water in oil emulsions useful in liquid membrane
USRE30125E (en) * 1970-04-13 1979-10-23 Exxon Research & Engineering Co. Liquid membrane process for the separation of aqueous mixtures
USRE30179E (en) * 1970-04-13 1979-12-25 Exxon Research & Engineering Co. Common ion effect to assist LM separation
US4003856A (en) * 1974-09-23 1977-01-18 Sharp Thomas L Oil-soluble composition for removing iron sulfide and sludge from metal surfaces
US4032360A (en) * 1974-09-23 1977-06-28 Sharp Thomas L Method of removing iron sulfide and sludge from metal surfaces
US4292181A (en) * 1978-10-30 1981-09-29 Exxon Research & Engineering Co. Use of liquid membrane systems for selective ion transfer
US4302365A (en) * 1980-02-11 1981-11-24 American Grease Stick Company Engine degreaser composition
WO2010075129A3 (en) * 2008-12-22 2010-10-07 Henkel Ag & Co. Kgaa Water-based cleaner for cleaning solvent-based paints
EP2361286A2 (en) * 2008-12-22 2011-08-31 Henkel AG & Co. KGaA Water-based cleaner for cleaning solvent-based paints
EP2361286A4 (en) * 2008-12-22 2012-05-23 Henkel Ag & Co Kgaa Water-based cleaner for cleaning solvent-based paints
US8722605B2 (en) 2008-12-22 2014-05-13 Henkel Ag & Co. Kgaa Water-based cleaner for cleaning solvent-based paints

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