Scouring pad containing phosphoric acid ester-fatty acid soap mixtures

Abstract

A scouring pad comprising a fine metal wire pad and a detergent adhered thereto, wherein the detergent comprises a salt of an ester of phosphoric acid having the formula (I):[R(OCH.sub.2 CH.sub.2).sub.m ].sub.x PO.sub.4 H.sub.3-x-y M.sub.y (I)wherein R is alkyl or alkenyl having 10 to 22 carbon atoms or alkylphenyl having 6 to 18 carbon atoms in the alkyl group, wherein said alkyl or alkenyl can be linear or branched, m is from 0 to 10, x is from 1.0 to 2.0, and y is from 0.5 to 2.0, with the proviso that the sum of x and y does not exceed 3, and M is an alkali metal, ammonium, alkanolamine, alkaline earth metal, zinc or aluminum cation, and a fatty acid soap having 10 to 22 carbon atoms.

Description

BACKGROUND OF THE INVENTION

FIELD OF THE INVENTION

The present invention relates to a scouring pad. More particularly, the invention relates to a scouring pad composed of a steel wool-like mat made of fine metal threads and a detergent adhered thereto.

Stains on cooking pots and pans caused by overflowing, scorching and cooking of foods, stains on stoves and ovens, grease stains on ventilation fans and stains on tile joints are commonly observed in homes. They are conspicuous, undesirable and difficult to remove. Detergents comprising an alkali and a solvent, ammonia and caustic alkalis, brasive cleansers, pot cleaners and brushes composed of steel wool, nylon and metals, spatulas, knives and the like have heretofore been used for removing these stains. The chemical actions of detergents and the like are quite effective for removing stains formed by modification or polymerization of oils caused by heat, light or air, but they are not very effective for removing stains formed by scorching and carbonizing of overflowed soups, oils and the like. The physical actions of mechanical polishing materials such as polishing cleaners and brushes composed of nylon, steel wool and metals not only remove the stains but also abrade the underlying surface. Therefore, the surface of the pot, pan, tile or plastic article is damaged and scratched by the stain-removing operation. Accordingly, the appearance of the cleaned surface is degraded to a matte finish and the cleaned surface can easily be contaminated with stains again. In the case of a soap-filled steel wool pad or cleaner, the amount of scratching is reduced as compared with the results obtained using a soap-free brush or cleaner, but the scratch-preventing effect is still insufficient.

We have discovered a scouring pad capable of achieving the following objects:

(1) The scouring pad has a high washing power such that it can remove effectively oil stains, scorching stains, roasting stains and the like; (2) The scouring pad does not damage the underlying material such as steel plate, aluminum sheet, stainless steel sheet, tile, plastic article or the like; (3) The detergent contained in the steel wool pad is not easily removed therefrom and the scouring pad is highly durable.

We have found that the foregoing objects can be attained by employing a scouring pad comprising a spongy mat of fine metal threads and a detergent impregnated therein, wherein the detergent comprises a mixture of a salt of a phosphoric acid ester and a fatty acid soap.

The phosphoric acid ester salt that is used in the present invention has the following formula (I):

[R(OCH.sub.2 CH.sub.2).sub.m ].sub.x PO.sub.4 H.sub.3-x-y M.sub.y (I) wherein R is alkyl or alkenyl having 10 to 22 carbon atoms, preferably 12 to 18 carbon atoms, or alkylphenyl having 6 to 18 carbon atoms, preferably 8 to 14 carbon atoms, in the alkyl group, wherein said alkyls and alkenyl can be linear or branched, m is from 0 to 10, preferably from 0 to 5, x is from 1.0 to 2.0, y is from 0.5 to 2.0, with the proviso that the sum of x and y does not exceed 3, and M is an alkali metal such as sodium or potassium, ammonium, alkanolamine such as monoethanolamine, diethanolamine or triethanolamine, alkaline earth metal such as calcium or magnesium, zinc or aluminum cation.

The fatty acid soap that is used in the present invention includes salts of saturated or unsaturated fatty acids having 10 to 22 carbon atoms, preferably 12 to 18 carbon atoms, with alkali metals such as sodium and potassium, ammonia, alkanolamine such as monoethanolamine, diethanolamine and triethanolamine, alkaline earth metals such as calcium and magnesium or polyvalent metals such as aluminum. From the viewpoints of best adherence to the fine metal threads and water solubility, a sodium salt of coconut fatty acid or beef-tallow fatty acid is preferably employed.

The amount of the phosphoric acid ester salt in the detergent composition is from 2 to 50% by weight, preferably 5 to 40% by weight, especially preferably 10 to 30% by weight, and the amount of the fatty acid soap is from 40 to 98% by weight, preferably 50 to 95% by weight, especially preferably 60 to 85% by weight.

The weight ratio of the detergent composition to the metal thread mat is from 0.2/1 to 2.0/1, preferably 0.5/1 to 1.5/1.

The detergent can optionally contain other water-soluble surface active agents and water-soluble inorganic salts in addition to the above-mentioned phosphoric acid ester salt and fatty acid soap.

As the optional surface active agents, there can be used anionic surface active agents, nonionic surface active agents and amphoteric surface active agents. As the anionic surface active agent, there can be mentioned, for example, alkyl sulfate salts having 10 to 22 carbon atoms, alkylbenzenesulfonate salts having 8 to 16 carbon atoms in the alkyl group, polyoxyethylene alkyl ether sulfate salts having 10 to 20 carbon atoms in the alkyl group and in which the molar number of added ethylene oxide units is from 1 to 10, polyoxyethylene alkylphenyl sulfate salts having 8 to 12 carbon atoms in the alkyl group and in which the mole number of added ethylene oxide units is from 1 to 10, salts of .alpha.-olefin-sulfonic acids obtained by sulfonating an .alpha.-olefin having 10 to 18 carbon atoms, and salts of alkane-sulfonic acids obtained from paraffins having 10 to 20 carbon atoms. As the nonionic surface active agents, there can be mentioned, for example, polyoxyethylene alkyl ethers formed by adding 1 to 20 moles of ethylene oxide to higher alcohols having 10 to 20 carbon atoms, polyoxyethylene alkylphenyl ethers formed by adding 1 to 20 moles of ethylene oxide to alkylphenols having an alkyl of 8 to 12 carbon atoms, glycerin esters of fatty acids having 10 to 20 carbon atoms, and fatty acid alkanolamides derived from fatty acids having 10 to 20 carbon atoms and alkanolamines such as diethanolamine and isopropanolamine. As the amphoteric surface active agent, there can be mentioned, for example, alkyl betaines, alkyl sulfobetaines, imidazole derivatives and alkyl alanines.

As the inorganic salt, there can be used, for example, sulfates such as sodium sulfate and potassium sulfate, carbonates such as sodium carbonate and potassium carbonate, silicates such as sodium metasilicate and sodium silicate No. 2, borates such as borax and sodium metaborate, and phosphates such as sodium orthophosphate, sodium tripolyphosphate and sodium pyrophosphate. Alkali metal silicates and alkali metal phosphates (especially secondary phosphates) possess an excellent rust-preventing effect, and when these salts are incorporated in amounts of from 2 to 20% by weight, especially 5 to 12% by weight, in the detergent composition, scouring pads having especially good properties can be obtained. Further, anionic surface active agents have an effect of enhancing the washing power, and when they are incorporated in amounts of up to 10% by weight, preferably 2 to 7% by weight, in the detergent compositions, stains formed by carbonization of overflowed soups or oils can be effectively removed.

In addition, colorants, perfumes, fungicides and mildew-proofing agents can be incorporated in the detergents according to need.

When the thickness of the fine metal threads is too large, the surface to be treated is readily scratched and the tactile feel of the scouring pad is bad. If the thickness is too small, the polishing power is reduced. Accordingly, it is preferred that the diameter of the fine metal threads is from 1 to 500.mu., especially 10 to 70.mu.. The cross-sectional shape of the fine metal threads that are used in the present invention is not critical, and fine metal threads having a triangular, square, circular or flat cross-section can be used in the present invention. Further, the material of which the fine metal threads are made is not critical, and any metals having a sufficient tensile strength to be formed in fine threads, such as plain carbon steel, stainless steel and brass, can be used. Plain carbon steel is especially preferred because it possesses an excellent polishing power and touch to the hand. A spongy metal thread mat having a circular, square, rectangular, oblong or elliptical shape (and having a sufficient thickness irrespective of its planar shape) can be used in the present invention.

The scouring pad of the present invention can be prepared by shaping the fine metal threads into an appropriate form, sprinkling thereon an aqueous solution of the detergent composition and heating the detergent-containing metal wire mat under pressure to dry same. Of course, the scouring pad of the present invention can be prepared according to other methods.

The present invention will now be described in more detail by reference to the following illustrative Examples that do not limit the scope of the invention.

EXAMPLE 1

Stains were removed by using mats of fine metal threads having a surface active agent, as indicated below, impregnated therein. The polishing power and the lubricating effect on an aluminum material were examined. The results shown in Table 1 were obtained. The polishing power and lubricating effect were determined by the following methods.

Measurement of Polishing Power

A paint was used as a specimen stain. The paint was coated and dried on an aluminum saucer having a thickness of 1 mm and a diameter of 7 cm. Then, 5 g of a 20% aqueous solution containing a surface active agent as indicated below was filled in the saucer, and a disc-like mat (having a weight of 3 g, a diameter of 5 cm and a thickness of 1.5 cm) of a steel wire (having an average diameter of 20 to 50.mu.) was pressed on the saucer under a load of 2 Kg and was rotated for 2 minutes by a laboratory motor whereby to scrub the saucer. The effect of polishing away the specimen stain was determined based on the difference between the weight of the saucer before the scrubbing and the weight of the saucer after the scrubbing. In Table 1, the polish amount is a relative value calculated on the basis that the amount of the change of the weight of the saucer attained by the use of only water (no surface active agent) as a polishing agent, is assigned the arbitrary value of 100.

The polish amount for aluminum was determined by conducting the above test by using an aluminum saucer which was not coated with the paint.

Measurement of Lubricating Property

The same specimen stain and aluminum material as used for the measurement of the polish amount were employed. The lubricating property was measured by using a tachometer to measure the speed of rotation (rpm) of the mat during the above-described polishing step. The lubricating property is expressed in terms of a relative value of the speed of rotation (rpm) of the mat calculated on the basis that the speed of rotation measured when only water was used is assigned the arbitrary value of 100.

Thus, in the following table, a polishing amount of over 100 shows that the surface active agent was more effective than plain water for removing the specimen stain. In like fashion, a lubricating property of over 100 shows that the surface active agent has a higher lubricating property than plain water.

Table 1__________________________________________________________________________Polishing Power and Lubricating Property of Various SurfaceActive Agents to Stain and Aluminum Stain Aluminum Polish Lubricating Polish LubricatingSurface Active Agent Amount Property Amount Property__________________________________________________________________________disodium salt of monoester of phosphoric acid 96 161 0 132with coconut alcoholmonopotassium stearyl sesquiphosphate 93 188 0 135monoammonium beef-tallow alcohol diphosphate 98 183 0 136disodium decyl monophosphate 90 143 0 1221.5Na salt of polyoxyethylene (added mole 121 159 0 144number = 2) palmityl sesquiphosphatemonosodium polyoxyethylene (added mole 110 163 2 121number = 10) lauryl sesquiphosphate1.5Na salt of polyoxyethylene (added mole 105 172 5 117number = 15) lauryl sesquiphosphate1.5Na salt of oxo-alcohol (carbon number = 109 181 0 13812.5) sesquiphosphatemonosodium dodecylphenyl diphosphate 115 158 0 135monosodium polyoxyethylene (added mole 108 167 0 139number = 3) nonylphenyl sesquiphosphatesodium salt of coconut fatty acid 87 184 15 125sodium dodecylbenzene-sulfonate 130 135 30 100sodium dodecyl sulfate 110 139 24 109polyoxyethylene (added mole number = 8) lauryl ether 100 134 123 82sodium secondary phosphate 90 113 57 98sodium metasilicate 117 126 65 102__________________________________________________________________________

From the results shown in Table 1, it will be apparent that various phosphoric acid ester salts have a higher polishing power to stains and a lower polishing power to aluminum and have a higher lubricating effect to stains and aluminum than other surface active agents.

EXAMPLE 2

A disc-like mat having a diameter of 5 cm and a thickness of 1.5 cm was formed from 5 g of a fine steel wire having an average diameter of 20 to 50.mu., and 15 g of a 60% aqueous solution of an adherent detergent having the composition indicated below was applied to the mat. The mat was then heated under pressure to impregnate the adhering detergent composition into the interior of the mat. Then, the mat was dried to remove water whereby a scouring pad was obtained.

Sodium stearyl sesquiphosphate--20 wt. % Sodium salt of coconut fatty acid--70 wt. % Sodium secondary phosphate--10 wt. %

EXAMPLE 3

In the same manner as described in Example 2, scouring pads having applied thereto detergent compositions as set forth in Table 2, were prepared. The polishing power and lubricating property to stains and aluminum were measured. The results shown in Table 2 were obtained.

Table 2__________________________________________________________________________ (all % values are weight percent)__________________________________________________________________________ 1(present 2(present 3(present 4(present 5(present invention) invention) invention) invention) invention)__________________________________________________________________________Composition sodium stearyl monosodium sodium poly- sodium poly diethanolamineof Applied sesquiphos- oxo-alcohol oxyethylene oxyethylene dodecyl mono-Detergent phate, 20% (C.sub.12.5) (added mole (added mole phosphate, 5% sesquiphos- number = 2) number = 2) phate, 10% palmityl ses- stearyl ses- quiphosphate, quiphosphate, 20% 45% sodium salt sodium salt sodium pal- sodium salt sodium salt of coconut of beef-tallow mitate, 70% of beef-tallow of coconut fatty acid, fatty acid, fatty acid, fatty acid, 70% 80% 50% 85% sodium se- sodium dode- sodium secon- sodium sili- sodium dode- condary cyl benzene- dary phos- cate No. 2, cyl benzene- phosphate, sulfonate, phate, 10% 5% sulfonate, 5% 10% 5% -- sodium sili- -- -- sodium secon- cate No. 2, dary phos- 5% phate, 5%Appearance,etc. good good good good goodStainpolish amount 131 155 153 152 138lubricatingeffect 188 189 190 192 178Aluminumpolish amount 0 0 0 0 0lubricatingeffect 149 148 145 156 140__________________________________________________________________________ 6(present 7 8 9 10 invention) (comparison) (comparison) (comparison) (comparison)__________________________________________________________________________Composition potassium po-of Applied lyoxyethyleneDetergent (added mole number = 3) nonylphenyl sesquiphos- phage, 15% sodium salt commercially sodium stearyl sodium salt sodium dodecyl of coconut available sesquiphos- of coconut benzenesulfo- fatty acid, product A phate, 100% fatty acid, nate, 100% 70% 100% sodium .alpha.- olefin- sulfonate, 5% sodium se- condary phosphate, 10%Appearance,etc. good good detergent was good detergent was not adhered in sticky and not good state driedStainpolish amount 149 110 93 87 130lubricatingeffect 181 152 188 184 135Aluminumpolish amount 0 25 0 15 30lubricatingeffect 145 117 132 125 100__________________________________________________________________________

As will be apparent from the results shown in Table 2, when the phosphoric acid ester salt and soap were used in combination, the stain-polishing power is synergistically improved in comparison with the polishing power attained by the use of the ester salt or soap alone. Further, the aluminum surface is not substantially polished, and the lubricating effect to the stain surface or aluminum surface is high and the stain can be removed by a light rubbing force. Furthermore, the product of the present invention has higher stain-polishing power and lubricating effect than the commercially available product A. The commercially available product has a very high polishing power to aluminum and readily damages aluminum materials.

EXAMPLE 4

Stained articles were polished for 1 minute by applying the same force, using sample No. 2 of Example 3 and the commercially available product A. The removal of stains and scratching of the material were examined. The results obtained are shown in Table 3.

Table 3__________________________________________________________________________ Peripheral Portion Pail of Gas Range Frying Pan Gas Range Saucer (polypropylene) (Stainless steel) (iron) removal removal removal removal of stains scratch of stains scratch of stains scratch of stains scratch__________________________________________________________________________Sample No. 2(Example 3) O O O O O O O OCommerciallyAvailableProduct A(Comparison) .increment. .increment. O X .increment. X .increment. .increment.__________________________________________________________________________ Note removal of stains: O : well removed .increment. : moderately removed X : not removed scratch: O : not scratched .increment. : slightly scratched X : considerably scratched

EXAMPLE 5

The synergistic effects attained by the phosphoric acid ester salt and soaps in the present invention are shown in Table 4. As the phosphoric acid ester salt, a 1.5 Na salt of dodecyl monophosphate was used, and a sodium salt of beef-tallow fatty acid was used as the soap. A composition comprising a mixture of 90% of the phosphoric acid ester salt and soap and 10% of sodium silicate No. 2 was used. The scouring pads were prepared in the same manner as described in Example 2. The properties thereof were determined in the same manner as described in Example 3.

Table 4__________________________________________________________________________Content (%) of Content (%) of1.5Na salt of sodium salt of Stains Aluminumdodecyl mono- beef-tallow polish lubricating polish lubricatingphosphate fatty acid Appearance, etc. amount effect amount effect__________________________________________________________________________0 90 good 90 178 28 1211 89 good 98 186 10 1355 85 good 132 188 2 14110 80 good 152 193 0 15520 70 good 157 196 0 15440 50 good, applied 130 195 0 156 detergent slightly dis- lodged60 30 detergent did 115 195 0 156 not adhere well__________________________________________________________________________

As will be apparent from the results shown in Table 4, an especially high synergistic effect can be obtained when the phosphoric acid ester salt is incorporated in an amount of 5 to 40%, preferably 10 to 30%. When the amount of the phosphoric acid ester salt is too small, the stain-removing effect is reduced and aluminum is scratched. When the amount of the phosphoric acid ester salt is too large, adherence of the detergent is degraded and the applied detergent tends to fall out of the pad.

EXAMPLE 6

The influences of the amount of the detergent applied to a fine steel wire pad, on the polishing effect, are shown in Table 5. The detergent used comprised 20% of monosodium polyoxyethylene (mole number of added ethylene oxide=3) lauryl sesquiphosphate, 70% of a sodium salt of beef-tallow fatty acid and 10% of sodium secondary phosphate. The amount of the detergent impregnated in the pad was changed as indicated in Table 5. Scouring pads were prepared in the same manner as described in Example 2, and properties thereof were determined in the same manner as described in Example 3.

Table 5__________________________________________________________________________Weight Ratio of Stains AluminumApplied Detergent polish lubricating polish lubricatingto Fine Steel Wire Appearance, etc. amount effect amount effect__________________________________________________________________________0 readily rusting and deformed 100 100 100 1000.2 good, relatively more rust as 132 186 3 139 compared with pads having larger amounts of applied detergent0.5 good 148 187 0 1521.0 good 159 191 0 1582.0 good 147 194 0 1652.3 applied detergent fell out 123 198 0 173 in small masses__________________________________________________________________________

As will be apparent from the results shown in Table 5, when the amount of the applied detergent is small, the stain-removing effect is relatively low and the aluminum substrate is slightly scratched. Further, the steel wire tends to rust. If the amount of the applied detergent is too large, the stain-removing effect is degraded and the applied detergent readily falls out. Accordingly, good results are not obtained.

EXAMPLE 7

A disc-like mat was prepared from 20 g of brass wire having a rectangular cross-section of 20.mu..times.400.mu., and 20 g of a 60% aqueous solution of a detergent having the composition indicated below was applied to the mat and heated under pressure so that the applied detergent was impregnated into the interior of the mat. Then, water was removed from the mat by drying to obtain a scouring pad.

1.5 Na salt of beef-tallow alcohol sesquiphosphate--20% Sodium salt of beef-tallow fatty acid--80%

EXAMPLE 8

A disc-like mat was prepared from 28 g of a fine stainless steel wire having a rectangular cross-section of 20.mu..times.200.mu., and 25 g of a 60% aqueous solution of a detergent having the composition indicated below was applied to the mat and heated under pressure so that the applied detergent was impregnated into the interior of the mat. Then, water was removed from the mat by drying to obtain a scouring pad.

Monosodium salt of beef-tallow alcohol sesquiphosphate--10% Sodium salt of hardened beef-tallow fatty acid--90%

The scouring pads prepared in Examples 7 and 8 were used for actual removal of stains. The results shown in Table 6 were obtained. For comparison, the results obtained with respect to comparative pads having no detergent applied thereto are shown in Table 6. From the results shown in Table 6, it will readily be understood that if no detergent is applied, the material is readily scratched.

Table 6__________________________________________________________________________ Stainless steel sink Aluminum cooking pot removal of removal ofPad stains scratch stains scratch__________________________________________________________________________Example 7 O O O OComparison (pad of Example 7 O X O Xwith no applied detergent)Example 8 O O O OComparison (pad of Example 8 O X .increment. xwith no applied detergent)__________________________________________________________________________ Note Removal of Stains: O : well removed .increment. : moderately removed X : not removed Scratch: O : not scratched .increment. : slightly scratched X : considerably scratched

Claims

1. A scouring pad comprising a spongy, fine metal thread pad and a detergent composition impregnated therein, said detergent composition consisting essentially of from 5 to 40 percent by weight of one or a mixture of phosphoric acid ester salts having the formula (I):

[R(OCH.sub.2 CH.sub.2).sub.m ].sub.x PO.sub.4 H.sub.3-x-y M.sub.y (I)

wherein R is alkyl or alkenyl having 10 to 22 carbon atoms or alkylphenyl having 6 to 18 carbon atoms in the alkyl group, wherein said alkyls or alkenyl can be linear or branched, m is from 0 to 10, x is from 1.0 to 2.0, y is from 0.5 to 2.0 with the proviso that the sum of x and y does not exceed 3, and M is an alkali metal, ammonium, alkanolamine, alkaline earth metal, zinc or aluminum cation,

and from 50 to 95 percent by weight of fatty acid soap having 10 to 22 carbon atoms, the weight ratio of said detergent composition to said fine metal thread pad being from 0.2/1 to 2.0/1.

2. A scouring pad as set forth in claim 1 wherein R is alkyl or alkenyl having 12 to 18 carbon atoms or an alkylphenyl group having 8 to 14 carbon atoms in the latter alkyl, m is from 0 to 5, and M is a member-selected from the group consisting of sodium, potassium, ammonium, monoethanolamine, diethanolamine and triethanolamine.

3. A scouring pad as set forth in claim 1 wherein the fine metal threads are made of plain carbon steel and have an average diameter of 10 to 70.mu..

4. A scouring pad as set forth in claim 1 in which the weight ratio of said detergent composition to said pad is from 0.5/1 to 1.5/1.

5. A scouring pad as set forth in claim 4 in which said detergent composition contains from 10 to 30% by weight of said phosphoric acid ester salt and from 60 to 85% by weight of said soap.

6. A scouring pad as set forth in claim 4 in which the sum of said phosphoric acid ester salt and said soap is at least 70% by weight of the total weight of said detergent composition and said detergent composition contains from 0 to 30% by weight of water-soluble, non-soap anionic, nonionic or amphoteric surfactants different from said phosphoric acid ester salt, or water-soluble inorganic salts or mixtures thereof.

7. A scouring pad as set forth in claim 5 in which said detergent composition contains from 2 to 20% by weight of alkali metal silicates, alkali metal phosphates or mixtures thereof.

8. A scouring pad as set forth in claim 5 in which said detergent composition consists of from 5 to 12% by weight of alkali metal silicate, alkali metal phosphate or mixture thereof, and the balance is said fatty acid soap and said phosphoric acid ester salt.

9. A scouring pad as set forth in claim 5 in which said detergent composition consists of from 2 to 7 percent by weight of said water-soluble non-soap synthetic anionic surfactant, and the balance is said fatty acid soap and said phosphoric acid ester salt.

10. A scouring pad as set forth in claim 5 in which said detergent composition consists of from 5 to 12 percent by weight of alkali metal phosphate, alkali metal silicate or mixture thereof, from 2 to 7 percent by weight of said water-soluble non-soap synthetic anionic surfactant, and the balance is said fatty acid soap and said phosphoric acid ester salt.