Solid formulations of organic dyestuffs, or of optical brighteners, characterized in that they contain a mixture of PA1 (a) 70-90% by weight of a mineral oil, PA1 (b) 0.5-10% by weight of an amide of the formula ##STR1## in which R represents C.sub.10 -C.sub.22 -alkyl or -alkenyl, PA2 R.sub.1 represents H or C.sub.1 -C.sub.4 -alkyl, or the two R.sub.1 's together represent a 1,2-ethylene bridge and PA2 R.sub.2 represents ##STR2## alkylene, and R.sub.3 represents H, C.sub.1 -C.sub.6 -alkyl or phenyl, PA1 (c) 0.5-15% by weight of a non-ionic surface-active agent and PA1 (d) 0-8% by weight of a cationic or anionic surface-active agent, and processes for the production of low-dust and low-foam solid dyestuff formulations.

The invention relates to solid formulations of dyestuffs and optical 
brighteners, which contain a mixture of 
(a) 70-90% by weight of a mineral oil, 
(b) 0.5-10% by weight of an amide of the formula 
##STR3## 
in which R represents C.sub.10 -C.sub.22 -alkyl or -alkenyl, 
R.sub.1 represents H or C.sub.1 -C.sub.4 -alkyl, or the two R.sub.1 's 
together represent a 1,2-ethylene bridge and 
R.sub.2 represents 
##STR4## 
alkylene, and R.sub.3 represents H, C.sub.1 -C.sub.6 -alkyl or phenyl, 
(c) 0.5-15% by weight of a non-ionic surface-active agent and 
(d) 0-8% by weight of a cationic or anionic surface-active agent. 
The formulations preferably contain 0.2-15% by weight of this mixture. 
Possible mineral oils are in particular normally liquid aliphatic, 
alicyclic and/or aromatic hydrocarbons whose boiling point is in 
particular above 150.degree. C. Aliphatic hydrocarbons, which can contain 
different amounts of cycloaliphatic and/or aromatic hydrocarbons, are 
preferably used. As examples of the aliphatic hydrocarbons for this 
purpose, dodecane, tetradecane, hexadecane, octadecane, eicosane or their 
mixtures, synthetic hydrocarbons, such as, for example, are obtained by 
the Fischer-Tropsch synthesis, or industrial mineral oils which are made 
from variously refined crude oils and are commercially available as, for 
example, paraffin oils, spindle oils or white oils may be mentioned. 
Examples of the amides of the formula (I) which may be mentioned are: 
methylene-bis-lauric acid amide, methylene-bis-myristic acid amide, 
methyl-bis-palmitic acid amide, methylene-bis-stearic acid amide, 
methylene-bis-eicosanoic acid amide, methylene-bis-behenic acid amide, 
methylene-bis-oleic acid amide, 1,2-ethylene-bis-lauric acid amide, 
1,2-ethylene-bis-palmitic acid amide, 1,2-ethylene-bis-stearic acid amide, 
1,4-butylene-bis-stearic acid amide, isobutylene-bis-stearic acid amide, 
benzylidene-bis-stearic acid amide, methylene-bis-linoleic acid amide, 
bis-palmitoylaminomethyl ether, bis-stearoylaminomethyl ether, 
1,3-bis-lauroylimidazolidine or 1,3-bis-stearylimidazolidine. 
Preferred compositions contain methylene-bis-stearic acid amide, 
methylene-bis-eicosanoic acid amide or methylene-bis-behenic acid amide, 
but in particular methylene-bis-stearic acid amide. The compounds are 
largely known and can be prepared by known methods, as described, for 
example in British Pat. No. 1,410,722 or in U.S. Pat. No. 2,554,846. 
Suitable non-ionic surface-active agents are the reaction products of fatty 
acids, fatty acid amides, fatty alcohols or fatty amines or C.sub.6 
-C.sub.12 -alkylphenols, which contain 8 to 20 carbon atoms and which may 
be unsaturated, with ethylene oxide and/or propylene oxide, as well as 
derivatives of such reaction products, such as, for example, are obtained 
by esterifying the terminal hydroxyl groups with carboxylic acids, such as 
acetic acid, lauric acid or benzoic acid, or by etherifying them with, for 
example, isobutylene or alkyl chlorides. Further suitable non-ionic 
surface-active agents are also the surface-active derivatives of 
polyhydric alcohols, for example fatty acid esters of acids having 10-22 
carbon atoms and pentitols, hexitols, pentoses, hexoses or polysaccharides 
as well as their oxyethylation products. Preferred non-ionic 
surface-active agents are reaction products of fatty acids or fatty acid 
amides containing 12-18 carbon atoms with 3-10 mols of ethylene oxide, or 
of fatty alcohols containing 8-18 carbon atoms, or of C.sub.6 -C.sub.9 
-alkylphenols, with 3-10 mols of ethylene oxide, or esters of such 
compounds with fatty acids containing 12-18 carbon atoms. 
The compositions contain, as further surface-active agents, 0-8%, 
preferably 0.5-3%, of a cation-active or anion-active compound. Examples 
of cation-active compounds which may be mentioned are: salts of amines 
which, in addition to not less than one basic nitrogen atom, contain not 
less than one alkyl radical or alkenyl radical having 10-20 carbon atoms, 
quaternary ammonium compounds derived therefrom, heterocyclic compounds, 
such as alkylpyridinium salts, imidazolinium compounds, as well as amine 
oxides or sulphonium compounds. The compositions preferably contain, as 
cationic surface-active agents, those of the formula 
##STR5## 
in which 
R.sub.4 represents a C.sub.12 -C.sub.20 -alkyl radical or a C.sub.12 
-C.sub.20 -alkenyl radical, 
R.sub.5 represents the hydroxyethyl group or the hydroxypropyl group, 
R.sub.6 represents R.sub.5 or methyl and A.sup.(-) represents an anion, in 
particular Cl.sup.(-), 
Br.sup.(-) or CH.sub.3 SO.sub.4.sup.(-). 
Suitable anionic surface-active agents are, for example, alkanesulphonates, 
alkylbenzenesulphonates, alkylnaphthalenefulphonates, alkyl-sulphates or 
lignin-sulphates containing 12-22 carbon atoms, and also salts of fatty 
acids. 
Possible suitable dyestuffs are, for example, the following dyestuffs: 
anionic dyestuffs, cationic dyestuffs, disperse dyestuffs, vat dyestuffs, 
metal complex dyestuffs, such as 1:1- and 1:2-copper dyestuffs, chromium 
dyestuffs or cobalt dyestuffs, reactive dyestuffs, chrome dyestuffs, 
inorganic and organic pigments or direct dyestuffs as well as optical 
brighteners. 
Preferred solid formulations contain 0.4-5% of a composition from 
(a) 80-90% of a mineral oil having a boiling point of not less than 
270.degree. C., 
(b) 2-6% of an amide of the formula (I), in particular 
methylene-bis-stearic acid amide, 
(c) 4-10% of a non-ionic surface-active agent, in particular a reaction 
product of an aliphatic alcohol, alkylphenol, fatty acid amide or a fatty 
acid containing 8-18 carbon atoms with 3-10 mols of ethylene oxide, and 
(d) 0-3% of a cationic surface-active agent, in particular a compound of 
the formula 
##STR6## 
in which R.sub.5 and A.sup.(-) have the abovementioned meaning and 
R.sub.6 represents a C.sub.16 -C.sub.20 -alkyl radical or a C.sub.16 
-C.sub.20 -alkenyl radical. 
The solid formulations according to the invention can contain, as further 
additives, customary formulation additives, such as dextrin, sugars, 
inorganic salts, such as sodium sulphate, sodium chloride or trisodium 
phosphate, as well as dispersing agents, wetting agents or emulsifiers. 
The solid formulations according to the invention are obtained, by methods 
which are in themselves known, by adding a mixture of the components 
(a)-(d) to the dyestuffs or optical brighteners. 
The addition can be effected by various methods, for example by mixing the 
already dried and formulated product with the abovementioned composition 
in a mixer or, more advantageously, by simultaneously spray-drying the 
dyestuff solution or dispersion together with the abovementioned 
composition, which, in the form of an aqueous emulsion, can be metered in 
continuously or discontinuously. 
The solid formulations according to the invention, so obtained, are 
distinguished from hitherto customary formulations, as described, for 
example, in German Offenlegungsschrift No. 2,656,407, not only by improved 
dusting behaviour during handling but also by the relatively smaller 
foaming-tendency of the dyestuffs or optical brighteners during 
application from aqueous liquors. 
The determination of the dusting behaviour is carried out in a dust 
measuring instrument from Messrs. Cassella. 
The measure of the dust value which is used is the attenuation of a light 
beam passing through a receptacle, which attenuation is caused by the 
whirling-up of dyestuff dust in this container and which is measured with 
the aid of a photocell. The dust is created by dyestuff falling through an 
apparatus-defined height. The light attenuation is measured immediately 
after the impact of the dyestuff on the bottom of the container and 30 
seconds later. The two values are added together. The dust value 
measurement is carried out with a sample weight of 30 g. The height of 
fall is 750 mm. The desired values for a well dedusted dyestuff are 
usually for 
(a) coloured dyestuffs .ltoreq.10 and 
(b) black dyestuffs .ltoreq.5. 
(0 denotes zero attenuation; 100 denotes complete attenuation). 
The determination of the foaming behaviour is carried out according to the 
method of Schlachter Direkes in the foam-beating instrument from Messrs. 
E. Haage, Mulhein/Ruhr. The measurement of the foam is carried out on 200 
ml of a solution which contains 0.4 g/l of the substance under 
investigation. The measurement is taken after 100 beats in a minute. The 
value is read at once, after 1 minute and after 5 minutes (in cm.sup.3).

EXAMPLE 1 
Before spray-drying, 2 parts by weight, expressed as solids, of a 
composition described below, are continuously metered, as an aqueous 
emulsion, into an approximately 30% strength dispersion of the 1:2 
chromium complex of the dyestuff of the formula 
##STR7## 
formulated with customary extenders. 
Spray-drying is carried out in a spray drier with an inlet temperature of 
180.degree. C. and an outlet temperature of 80.degree. C. A one-material 
nozzle is used as atomiser. Low-dust and low-foam dyestuff granules having 
good cold solubility and hot solubility are obtained. The composition used 
was prepared in the following manner: 
11.2 parts of stearyl-dimethyl-hydroxyethylammonium chloride and 42 parts 
of a reaction product of a C.sub.12 -C.sub.14 fatty alcohol with 3 mols of 
ethylene oxide are dissolved at 70.degree.-80.degree. C. in 405 parts of a 
mineral oil (density at 15.degree. C.: 0.900; viscosity at 20.degree. C.: 
13.2 cSt: boiling point range 282.degree.-332.degree. C.). The solution 
obtained is cooled down to 20.degree.-30.degree. C. and, at this 
temperature and with efficient stirring, a solution at 120.degree. C. of 
21 parts of methylene-bis-stearic acid amide in 400 parts of mineral oil 
is added gradually. Approximately 890 parts of an oily liquid are 
obtained, from which a stable emulsion can be prepared by simply pouring 
into water and stirring. Density: 0.9 kg/m.sup.3 ; Ford cup flow time (4 
mm nozzle): 18 seconds. 
EXAMPLE 2 
Shortly before spray-drying, 0.5 part by weight of a composition described 
below is added, as an aqueous emulsion, to an approximately 25% strength 
dispersion of the disperse dyestuff of the formula 
##STR8## 
finished with the customary dispersing agents. Spray-drying is then 
carried out in a spray-drier with an inlet temperature of 170.degree. C. 
and an outlet temperature of 75.degree. C. Low-dust and low-foam dyestuff 
granules, which can be readily dispersed in water, are obtained. The 
composition used was prepared in the following manner: 
42 parts of methylene-bis-stearic acid amide were dissolved at 120.degree. 
C. in 400 parts of a Fischer-Tropsch hydrocarbon having an average carbon 
number of 15. This solution was allowed to run, gradually and with 
efficient stirring, into a solution, cooled down to 20.degree.-30.degree. 
C., which had been prepared by mixing 42 parts of a reaction product of 
industrial-grade lauryl alcohol with 3 mols of ethylene oxide, with 11.2 
parts of octadecyl-dimethylhydroxyethyl-ammonium chloride and 400 parts of 
the same hydrocarbon. Approximately 890 parts of a white oil were 
obtained. Density: 0.85 kg/m.sup.3 ; Ford cup flow time (4 mm nozzle): 18 
seconds. The product can be diluted with water to give a stable emulsion. 
EXAMPLE 3 
Shortly before spray-drying, 3.3 parts by weight of a composition described 
below, relative to dry matter, are added, as an aqueous emulsion, to an 
approximately 30% strength solution of the 1:2 chromium complex of the 
dyestuff of the formula 
##STR9## 
formulated with the customary formulation additives. Spray-drying is then 
carried out in a spray-drier with an inlet temperature of 200.degree. C. 
and an outlet temperature of 95.degree. C. A one-material nozzle is used 
as atomiser. Low-dust and low-foam dyestuff granules having good 
solubility in water are obtained. The composition used was prepared in the 
following manner: 
16 parts of a sodium alkanesulphonate (average chain length: C.sub.21) and 
63 parts of a reaction product of a C.sub.12 -C.sub.14 fatty alcohol with 
3 mols of ethylene oxide are dissolved at 70.degree.-80.degree. C. in 402 
parts of the mineral oil used in Example 1. The solution obtained is 
cooled down to 20.degree.-30.degree. C. and, at this temperature and with 
efficient stirring, a solution at 120.degree. C. of 20.5 parts of 
methylene-bis-stearic acid amide in 402 parts of mineral oil is gradually 
added. Approximately 900 parts of an oily liquid are obtained, which can 
be emulsified by simply pouring into water and stirring. Density: 0.9 
kg/m.sup.3 ; 
Ford cup flow time (4 mm nozzle): 47 seconds. 
EXAMPLE 4 
Some more dyestuff formulations, formulated according to the invention, are 
contrasted below with the corresponding formulations which make use of 
commercially available dedusting agents: 
__________________________________________________________________________ 
Foam value [cm.sup.2 ] 
Dyestuff Dust value 
immediately 
after 1' 
after 
__________________________________________________________________________ 
5' 
1. Dyestuff of Example 3 21 + 3 
500 300 0 
+ 2 parts by weight of the product 1 + 0 150 0 0 
used in Example 1 
+ 2 parts by weight of a 15 + 3 
1,150 950 750 
commercially available dedusting 
agent 
2. CI Disperse Blue 81 (= No. 64,515) 
77 + 48 
400 0 0 
+ 2 parts by weight of the product 6 + 2 0 0 0 
used in Example 1 
+ 2 parts by weight of a 40 + 14 
450 350 250 
commercially available dedusting 
agent 
3. CI Acid Red 42 (= No. 17,070) 10 + 1 
750 700 350 
+ 2 parts by weight of the product 3 + 0 250 0 0 
used in Example 1 
+ 2 parts by weight of a 5 + 1 300 250 100 
commercially available dedusting 
agent 
4. Dyestuff of the formula 13 + 1 
850 800 600 
##STR10## 
+ 2 parts by weight of the product 1 + 0 250 125 0 
used in Example 1 
+ 2 parts by weight of a 6 + 0 450 350 300 
commercially available dedusting 
agent 
__________________________________________________________________________