Use of polyhydroxyalkylamine-N-N-dicarboxylic acids and their salts as builders in detergents and cleaning agents

Abstract

Use of polyhydroxyalkylamine-N,N-dialkylcarboxylic acids or their salts, as builders for detergents and clenaing agents. Compounds of formula ##STR1## where X represents a polyhydroxyalkyl group with 3 to 7 carbon atoms and which may be glycosidically linked to a mono-, di-, or oligosaccharide; and n is 1 to 3, are used as builders for detergents and cleaning agents.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The invention is directed to the use of polyhydroxyalkylamine-N,N-dicarboxylic acids as builders in detergents and cleaning agents.

2. Discussion of the Background

The good detergency and cleaning capability of modern synthetic detergents is known to be due in large measure to their high content of sodium phosphate. Because of the hazard of eutrophication of surface waters, phosphates are being questioned from an environmental standpoint, and a progressive replacement of phosphates in detergents by substances which pose a lesser environmental threat has been required. The particular substitues which have been employed include, most importantly, nitrilotriacetic acid, citric acid, polycarboxylic acids, and gluconic acid, as well as polymeric acids such as, e.g., polyacrylic acid, maleic acid copolymers, and polymaleic acid (see 1975 Angew. Chem., 87, 115).

A major development is the use of inorganic water-insoluble builders of type zeolite A (see Ger. AS 24 12 837) which are considered excellent in environmental safety but which do not provide adequate support for the washing action of the surfactants, and can only be used in combination with one of the abovementioned organic builders as a phosphate substitute.

Thus it is seen that there is still no phosphate substitute for use in detergent formulations which has characteristics parallel to the excellent combination of characteristics of sodium triphosphate as a builder.

SUMMARY OF THE INVENTION

Accordingly, one object of the present invention is to provide a detergent builder which has characteristics comparable to sodium triphosphate.

This and other objects which will become apparent from the following specification have been achieved by the use of polyhydroxyalkylamine-N,N-dialkylcarboxylic acids or their salts, or formula I: ##STR2## where X represents a polyhydroxyalkyl group which has 3 to 7, preferably 4 to 6 carbon atoms and which may be glycosidically linked to a mono-, di-, or oligosaccharide;

M represents hydrogen, ammonium or an alkali metal ion; and

n is an integer from 1 to 3, as builders for detergents and cleaning agents.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The inventively employed polyhydroxyalkylamine-N,N-dialkylcarboxylic acids or their salts should be present in an amount of 2-60 wt.%, preferably 5-25 wt.%, based on the total weight of the detergent or cleaning agent mixture.

M may be hydrogen, lithium, sodium, potassium, or ammonium, preferably sodium. n is preferably 1. X may represent the following polyhydroxyalkyl groups: 1-deoxyerythrityl, 1-deoxyarabityl, 1-deoxyxylityl, 1-deoxysorbityl, 2-deoxysorbit-2-yl, 1-deoxymannityl, 2-deoxymannit-2-yl, 1-deoxygalactityl 1-deoxy-4-glucosido-sorbityl, 1-deoxy-4-galactosido-sorbityl, 2-deoxy-4-glucosido-sorbit-2-yl, 2-deoxy-4-glucosido-mannit-2-yl, 1-deoxy-4-malto-glucosido-sorbityl, 1-deoxy-4-oligoglucosido-sorbityl, or 1-deoxy-4-polyglucosido-sorbityl. Preferably, X represents a 1-deoxysorbityl group.

The following compounds are examples of builders which may be employed according to the invention: glucamine diacetate, erythramine diacetate, arabinamine diacetate, xylamine diacetate, mannamine diacetate, galactamine diacetate, 2-deoxy-sorbit-2-ylamine diacetate, 2-deoxy-mannit-2-ylamine diacetate, 4-glucosido-glucamine diacetate, 4-galactosido-glucamine diacetate, 2-deoxy-4-glucosido-sorbit-2-ylamine diacetate, 2-deoxy-4-glucosido-mannit-2-ylamine diacetate, 4-malto-glucosido-glucamine diacetate, 4-oligoglucosido-glucamine diacetate, and 4-polyglucosido-glucamine diacetate.

The following are examples of surfactants which may be present in the detergent or cleaning agent: (a) anionic surfactants, e.g. alkylarylsulfonates, particularly alkylbenzenesulfonates; olefinsulfonates, sec-paraffinsulfonates; sulfosuccinic acid half ester salts; or fatty alcohol ether sulfates; (b) nonionic surfactants, e.g. fatty alcohol polyglycol ethers, alkylphenol polyglycol ethers, fatty acid polyglycol esters, or polypropylene oxide-polyethylene oxide mixed polymers; etc.

The compounds of general formula I are known per se. See Ger. AS 10 11 428, wherein a method of preparing the compounds is described along with their use as therapeutic agents. According to the method described, the compounds may be prepared by carboxyalkylation of the corresponding polyhydroxyalkylamines, or by polyhydroxyalkylation of the corresponding iminodi-(alkylcarboxylic) acids.

The polyhydroxyalkylamine-N,N-dimethylcarboxylic acids ##STR3## may be prepared, for example, by treating the corresponding polyhydroxyalkylamines with formaldehyde and hydrocyanic acid, or by carboxymethylation with chloroacetic acid and sodium hydroxide.

The polyhydroxyalkylamines may be prepared by the generally known method of reductive amination of sugar derivatives with liquid ammonia. The following are examples of preferred sugar derivatives: erythrose, glucose, galactose, mannose, fructose, arabinose, xylose, maltose, saccharose, lactose, cellobiose, maltotriose, maltodextrin, and other starch byproducts (e.g. glucose syrup).

The excellent action of the builder sodium triphosphate in synthetic detergents and cleaning agents in very complex. The most important criteria are as follows: (a) good complex-forming ability with calcium and magnesium ions; (b) synergistic influence of the primary detergent action of synthetic anionic and nonionic surfactants and soaps; (c) good antiredeposition power for soils, and good dissolution power of soil particles; (d) good compatibility with other builders, e.g. sodium silicate and sodium sulfate; (e) no effect on perborate stability; and (f) inhibition of deposition of inorganic insoluble salts onto the fabric (incrustation).

The inventively employed alkali salts of polyhydroxyalkylamine-N,N-dialkylcarboxylic acids fully satisfy these criteria.

Other features of the invention will become apparent in the course of the following description of exemplary embodiments which are given for illustration of the invention and are not intended to be limiting thereof.

The invention will now be illustrated in more detail in the following, using the example of glucamine-N,N-diacetate shown below. ##STR4##

EXAMPLES

Preparation of Glucamine-N,N-diacetate:

181 g (1 mol) D-glucamine and 194 g (2.05 mol) chloroacetic acid were stirred with 50 ml water at 40.degree. C., to form a suspension, to which 164 g (2.05 mol) 50 sodium hydroxide was added slowly. The reactant mixture at this point had a pH of less than 8.5. At 55.degree. C. the material comprises a clear solution. An additional 164 g NaOH solution was added gradually at a pH of 8 to 9, over a period of 2 hours. Stirring was continued an additional 30 minutes at 70.degree. C. After cooling, 58 g NaCl was filtered out. The filtrate had the following composition:

48.7% Glucamine-N,N-diacetate 1.6% Hydroxyacetate 8.6% NaCl 41.0% Water.

The pH of the final solution was 10.3. This solution was used as a test solution for the following application tests.

In all cases, sodium triphosphate (Na-Tripurit.RTM., supplied by Hoechst) was used as a comparison material.

In the washing test, the inventively employed material was combined with the anionic surfactant alkylbenzenesulfonate (Marlon A.RTM., supplied by Huels). In some instances, zeolite (Sasil.RTM., supplied by Degussa) was included as a comparison material.

Calcium Binding Capability According to Hampshire Test:

2 g of the test substance was dissolved in 90 ml water, and 10 ml of a 2% sodium carbonate solution was added. After bringing to temperature (see Table), the solution was titrated at pH 10 with a 4-5% calcium acetate solution until a distinct and persistent turbidity was present.

TABLE 1______________________________________HAMPSHIRE TEST Ca binding capabilityTemperature (mg CaCO.sub.3 /g substance)(.degree.C.) Glucamine diacetate Na--Tripurit .RTM.______________________________________20 224 16360 197 12090 146 84______________________________________

Detergency in Combination with Marlon A.RTM.:

Laboratory washing machine: Linitest.RTM. (supplied by Heraeus). Test fabric: Standard soiled cotton (supplied by WFK, Krefeld).

Brightening measured against standard white (MgO), by a UV spectrometer (Beckmann "DK 2A").

Hardness of water: 13.degree. dH. Washing time and temperature: 30 min, 90.degree. C. Bath ratio: 1:70.

Concentration of the agents in the bath: 1 g/liter Marlon A.RTM.+2 g/liter builder.

TABLE 2______________________________________DETERGENCY Brightening (%)Builder 1st washing 2nd washing______________________________________Glucamine diacetate 30.3 37.4Na--Tripurit .RTM. 32.7 37.4Sasil .RTM. 21.5 31.1Sasil .RTM. + 23.9 35.110% glucamine diacetate______________________________________

Incrustation:

Following a 3rd washing, the fabric was incinerated at 600.degree. C., 2 hours. The ash percentage was taken as a measure of incrustation.

TABLE 3______________________________________INCRUSTATIONBuilder Ash (wt. %)______________________________________Control test* 0.83-0.85Glucamine diacetate 0.57-0.57Na--Tripurit .RTM. 0.26-0.26Sasil .RTM. 0.88-0.94Sasil .RTM. +10% glucamine diacetate 0.82-0.97______________________________________

Detergency in Combination with n-Dodecylbenzenesulfonate (Marlon A.RTM.) and Sodium Sulfate:

FIG. 1 is a graph of brightening versus builder content in detergent formulations. Concentrations of agents in bath: 0.75 g/liter Marlon A.RTM.+ up to 2 g/liter builder. The amount of builder was steadily replaced by increasing amounts of sodium sulfate. However, the total amount of sodium sulfate+builder in all samples was constant at 2 g/liter.

Perborate Stability in the Presence of Fe(III) at 60.degree. C.:

FIG. 2 is a graph of residual active oxygen versus time as obtained from a test solution containing a concentration of agents of 0.77 g/liter builder, 0.62 g/liter sodium perborate.4H.sub.2 O and 0.01 g/liter Fe(III) chloride. The residual active oxygen value was taken as a measure of perborate stability.

As the examples show, the inventively employed compounds are clearly superior to the ecologically unobjectionable zeolites (SASIL.RTM.) in the important characteristics, e.g., detergency, effect on incrustation, and perborate stability.

Although the triphosphate is the best as a builder, some of the properties of the inventively employed compounds are superior to those of the triphosphate, i.e., Hampshire Ca-binding test and perborate compatibility, and some are nearly as good, i.e., incrustation and detergency.

The inventively employed types of compounds do not lead to eutrophication. Accordingly, their use in detergents and cleaning agents represents a true advance of the art, and a surprising one as well.

Obviously, numerous modifications and variations of the present invention are possible in light of the above teachings. It is therefore to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described herein.

Claims

1. A detergent or cleansing composition, comprising:

a combination of at least one anionic or nonionic surfactant with from 2-60 wt.%, based on the weight of the composition, of a builder consisting of a polyhydroxyalkylamine-N,N-dialkylcarboxylic acid or a salt thereof of the formula: ##STR5## where X is 1-deoxyerythrityl, 1-deoxyarabityl, 1-deoxyxylityl, 1-deoxysorbityl, 2-deoxysorbit-2-yl, 1-deoxymannityl, 2-deoxymannit-2-yl, 1-deoxygalactityl, 1-deoxy-4-glucosidosorbityl, 1-deoxy-4-galactosidosorbityl, 2-deoxy-4-glucosidosorbit-2-yl, 2-deoxy-4-glucosidommanit-2-yl, 1-deoxy-4-maltoglucosidosorbityl, 1-deoxy-4-oligoglucosido-sorbityl, or 1-deoxy-4-polyglucosidosorbityl, M is hydrogen, ammonium or an alkali metal ion and n is an integer of from 1 to 3.

2. The composition of claim 1, wherein X is 1-deoxysorbityl.

3. A detergent or cleansing composition, comprising:

a combination of at least one anionic or nonionic surfactant with from 2-60 wt.%, based on the weight of the composition, of a builder consisting of a polyhydroxyalkylamine-N,N-dialkylcarboxylic acid or a salt thereof of the formula: ##STR6## wherein X is a group containing a polyhydroxyalkyl group of 3 to 7 carbon atoms glycosidically bonded to a mono-, di- or oligosaccharide, M is hydrogen, ammonium or an alkali metal ion and n is an integer of from 1 to 3.

4. A detergent or cleansing composition, comprising:

a combination of at least one anionic or nonionic surfactant with from 2-60 wt.%, based on the weight of the composition, of a builder consisting of a polyhydroxyalkylamine-N,N-dialkylcarboxylic acid or a salt thereof selected from the group consisting of glucamine diacetate, erythramine diacetate, arabinamine diacetate, xylamine diacetate, mannamine diacetate, galactamine diacetate, 2-deoxysorbit-2-ylamine diacetate, 2-deoxymannit-2-ylamine diacetate, 4-glucosidoglucamine diacetate, 4-galactosidoglucamine diacetate, 2-deoxy-4-glucosidosorbit-2-ylamine diacetate, 2-deoxy-4-glucosidomannit-2-ylamine diacetate, 4-maltoglucosidoglucamine diacetate, 4-oligoglucosido-glucamine diacetate, or 4-polyglucosidoglucamine diacetate.

5. The composition of claim 1, wherein said anionic surfactant is an alkylarylsulfonate, an olefinsulfonate, a sec-paraffinsulfonate, a sulfosuccinic acid half ester salt or a fatty alcohol ether sulfate and said nonionic surfactant is a fatty alcohol polyglycol ether, an alkylphenyl polyglycol ether, a fatty acid polyglycol ester or a polypropylene oxide-polyethylene oxide mixed polymer.

6. The composition of claim 3, wherein said anionic surfactant is an alkylarylsulfonate, an olefinsulfonate, a sec-paraffinsulfonate, a sulfosuccinic acid half ester salt or a fatty alcohol ether sulfate and said nonionic surfactant is a fatty alcohol polyglycol ether, an alkylphenyl polyglycol ether, a fatty acid polyglycol ester or a polypropylene oxide-polyethylene oxide mixed polymer.

7. The composition of claim 4, wherein said anionic surfactant is an alkylarylsulfonate, an olefinsulfonate, a sec-paraffinsulfonate, a sulfosuccinic acid half ester salt or a fatty alcohol ether sulfate and said nonionic surfactant is a fatty alcohol polyglycol ether, an alkylphenyl polyglycol ether, a fatty acid polyglycol ester or a polypropylene oxide-polyethylene oxide mixed polymer.