IL31850A - Process for dyeing - Google Patents

Description

31850/2 ΪΙ y * a x V 1 * ¾► a a Process for dyeing C. 30196 It has been proposed to dye fibres containing amide groups, especially nylon fibres, with fibre-reactive disperse dyestuffs in an aqueous medium, but this procedure has not become established in practice because in general the dyeing has to be carried out in two steps and the degree of colour fastness obtained is not particularly good.

This invention is based on the surprising observation that these disadvantages can be overcome when the dyeing is carried out in organic solvents.

Accordingly, this invention provides a process for dyeing textile material made from hydrophobic staple fibres or filaments containing polar groups, especially staple fibres or filaments containing nitrogen atoms or ester groups wherein the textile material is dyed or printed batchwise or, preferably, continuously, with a solution containing at least one fibre-reactive dyestuff in a solvent or mixture of solvents that remains to a large extent inert towards the textile material, even at the temperature at which dyeing is carried out.

The term "fibre-reactive dyestuff" used in this specification has the conventional meaning and refers to a dyestuff that combines, - for example, with acy!atable groups present in the fibre to form a covalent chemical bond.

The dyeing process described herein is suitable for all natural and synthetic fibres containing nitrogen atoms and/or ester groups. Nitrogenous fibres are, for example, wool, synthetic polyamides, especially poly(hexamethylene-adipic acid amide) or nylon 66, poly((o-caprolactam) or nylon 6, poly(hexamethylene-sebacic acid amide) or nylon 610, and poly(ll-amino-undecanoic acid) or nylon 11, acrylic or acrylonitrile fibres, polyacrylonitrile fibres and copolymers of acrylonitrile and other vinyl compotuads, for example, acrylic esters, acrylamides, vinylpyridine , vinyl chloride or vinylidene chloride, copolymers of dicyanoethylene and vinyl acetate, and also fibres made from acrylonitrile block copolymers, polyurethane fibres and basically modified polypropylene fibres Examples of fibres containing ester groups are secondary acetate and triacetate fibres and fibres made from aromatic polyesters, for example, fibres made from terephthalic acid and ethylene glycol or 1,4-dimethylol-cyclohexane, and copolymers of terephthalic and isophthalic acid and ethylene glycol.

When the nitrogenous fibres contain free amino groups they are capable of forming chemical bonds with the reactive dyestuffs used in accordance with the invention, V/hen they do not contain reactive amino groups, the dyestuff is dispersed within the fibre as in the customary dyeing processes for disperse dyestuffs.

The dyestuffs to be used in accordance with the invention are preferably those of the well-known class of water-soluble or preferably water-insoluble fibre-reactive disperse dyestuffs, for example, monoazo, disazo and polyazo dyestuffs, anthraquinone , perinone, quinophthalone, oxazine, nitroso, nitro, phthalocyanine, stilbene and methine dyestuffs, including styryl, azamethine, polymethine and · azostyryl dyestuffs, and also metal-complex dyestuffs of the azo and formazan types .

Other types of suitable fibre-reactive dyestuff may also be used.

The dyestuffs to be used in accordance with the invention, which are preferably sparingly soluble or insoluble in water, contain in the molecule at least one fibre-reactive group, for example s-triazinyl residues containing one or two chlorine or bromine atoms attached to the triazine ring, pyrimidyl residues containing one or two chlorine atoms or one or two arylsulphonyl or alkanesulphonyl groups attached to the pyrimidine ring, mono- or bis(Y-halogeno-p-hydroxy-propyl)amino groups, β-halogeno-ethylsulphamyl residues, β-halogeno-ethoxy groups, β-halogeno-eth lmercapto groups, Y-halogeno-p-hydroxypropylsulphamyl residues, chloroacetylamino groups, vinylsulphonyl groups, 2,3-epoxypropyl groups, or other fibre-reactive residues which are preferably free from groups imparting solubility in water.

Suitable dyestuffs of the fibre-reactive disperse dyestuff series are indicated, for example, in British Patent Specifications Nos. 822,500, 8259377, 833,396, 838,338, 821,963, 822,948, 856,899, 848,236, 840,903, 850,977, 862,269, 833,832, 836,671, 868,471, 856,898, 868,468, 855,715, 856,899, 879,263, 869,100, 877,250, 870,948, 895,424, 877,591, 901,434, 880,886, 917,873, 1,090,005 and 984,841, and also in United Stated Patent Specification No. 3.122,533 ad French Patent Specification No. 1,276,443.

The following are given as examples of dyestuffs that can be used in accordance with the inventionJ-2-hydroxy-5-methyl- t-(4" , 6"-dicliloro-s-triazinyl-2-aniino)azo-benzene, 2-c.h.loro-4-ethanesulphonyl-4'-[N-p~hydroxyethyl-N~ -(4" , 6"-dichloro-s-triazinyl-2-amino)-ethylamino]azobenzene, 4-(4' 6M-dichloro--S"-triazinyl~2-ainino)-2-methylazobenzene, 2-hydroxy-5-methyl-4'-(4'' ,6"-dibromo~j3-triazinyl-2-amino) azobenzene, 2-hydroxy-5-methyl-41 -^"-chloro-e^^-hydroxyethylamino-j^-triazinyl-2-ainino)azobenzene , 2-hydroxy-5-methyl-41 -( 41l-chloro-6,l-anilino-s-triazinyl-2-amino)-azobenzene, 2-hydroxy-5-methyl-4 ' -(4"-chloro-6"-amino- Suitable solvents which have to be substantially inert towards the staple fibres or filaments at the dyeing temperature, that is to say, must not dissolve the staple fibres or filaments, are, for example, hydrophobic solvents which are immiscible or only slightly miscible with water, for example, cyclohexanol, benzyl alcohol, esters, for example, ethyl acetate, propyl acetate, butyl acetate, ethers, for example, diisopropyl-ether or diphenyl oxide, ketones, for example, methyleth lke one, acetophenone or cyclohexanone, hydrocarbons, for example, benzene, xylene or toluene and halogenated hydrocarbons, for example, carbon tetrachloride, chloroform, methylene chloride, trichloroethylene, perchloroethylene, trichloroethylene, tetrachloroethane, dibromoethylene or chlorobenzene , Hydrophilic solvents miscible with water are a specially preferred class of solvents, for example, aliphatic alcohols, for example, methanol, ethanol, n~propanol and isopropanol, ketones, for example, acetone, ethers and acetals, for example, dioxan , tetrahydrofuran, glycerolformaldehyde and glycolformal-dehyde, and also acetonitrile and pyridine, diacetone alcohol and hi her-boilin l col derivatives for exam le eth lene glycol monoraethyl ether, ethylene glycol monoethyl ether, ethylene glycol monobutyl ether and diethylene glycol monomethyl ether, diethylene glycol monoethyl ether, thiodiglycol, polyethylene glycols, provided they are liquid at room temperature, ethylene carbonate, Y-but rolactone and especially the group of active solvents miscible with water which boil at a temperature above 120°C, for example, N,N-dimethylformamide, N,N-dimethylacetamide, bis-(dimethylamido)-methane phosphate, tris-(dimethylamido)-phosphate, N-methyl-pyrrolidone, 1, 5-dimeth lpyrrolidone, N,N-dimeth lmethoxy-acetaraide, Ν,Ν,Ν' ,Ν' -tetrameth lurea, tetramethylenesulphone (sulpholan), 3-niethylsulpholan and dimethylsulphoxide.

There are three preferred sub-groups in the series of hydrophilic solvents, namely (l) those suitable for dissolving linear synthetic polymers or polycondensates capable of being spun, for example, acrylonitrile polymers, (2) those miscible with water in all proportions, and (3) solvents free from hydroxyl groups.

Specially preferred are mixtures of chlorinated aliphatic hydrocarbons and up to 50 °/ of a hydrophilic solvent, especially an amide of a low-molecular weight fatty acid, for example, dimethylacet mide or dimethylformamide .

The process of the invention is preferably carried out without the addition of dispersing agents with the advantage that the dyed textile material is more easily cleaned. The addition of surfactants to the dyeing or padding liquor is optional Important surfactants are particularly those of the following classes of non-ionic compound i-a) ethers of polyhydroxy compounds, for example, polyoxalkyl- ated fatty alcohols, polyoxalkylated polyols, polyoxalkylated mercaptans and aliphatic amines, polyoxalkylated alk lphenols and alk lnaphthols, polyoxalkylated alkylarylmercaptans and alkylarylamines . b) fatty acid esters of ethylene glycols and polyethylene glycols, fatty acid esters of propylene glycol and butylene glycol, fatty acid esters of glycerol or poly lycerols and of pentaer thritol, and also of sugar alcohols, for example, sorbitol, sorbitans and saccharose. c) N-hydroxyalkyl-carboxylic acid amides, polyoxalkylated carboxylic acid amides and sulphonamides.

It is advantageous to use, for example, surfactants of the following groups: the addition products obtained from 8 mols of ethylene oxide and 1 mol of para-tert.-octylphenol; from 15 or 6 mols of ethylene oxide and castor oil; from 20 mols of ethylene oxide and the alcohol also the addition products of ethylene oxide with di-[a-phenylethyl]-phenols, polyethylene oxide-tert.-dodecylthioethers or polyaminepoly lycol ethers, or the addition products obtained from 15 or 30 mols of ethylene oxide and 1 mol of the amine 012H25NH2 or C18H37M2.

In the batchwise exhaustion method of dyeing, the textile material to be dyed may be in the form of loose material, a web, yarn, a knitted fabric or a woven fabric. Dyeing may be carried out in various types of apparatus, for example, pack-dyeing machines, cheese-dyeing machines, jigs, winch becks, and so forth, depending on the nature of the material to be dyed.

The dyeing plant may be open to the ambient atmosphere (for example, via a reflux condenser) or it may be of the closed, for example, pressurized, type, and dyeing may be carried out under atmospheric pressure or superatmospheric pressure.

When the material has been dyed to the required depth of shade, it is removed from the dyebath and the solvent still adhering to it is removed either by a steam or hot-air treatment.

The dyeing process is however preferably carried out in a continuous manner, the textile material dyed in this way being mainly woven fabrics and carpets of all kinds; some kinds of knitted material can also be dyed continuously. The material is impregnated or printed, especially padded, and is then subjected to a heat treatment to fix the dyestuff on the fibre, preferably by a dry heat treatment at a temperature below the softening point of the fibre .

Impregnation on a padding mangle may be carried out either at room temperature or at an elevated temperature.

After the passage through the dyestuff solution, the material is squeezed as required to a liquor uptake of about 50 to 130 o referred to the dry weight of the material.

On leaving the padding mangle or printing machine, the impregnated or printed material may be dried if necessary; for example, it may be dried in a stream of air heated, for example, to 30 to 90°C, the treatment being of short duration, or it may be freed of most of the dyestuff solution still adhering to it by other means, for example, by centrifuging, or it may be subjected to fixation or thermofixation as it is. Fixation is carried out at a temperature above 100°C, preferably at a temperature of at least 170 to 240°C. On no account should the fixation temperature be as high as the softening temperature of the fibre.

Thermofixation may be carried out, for example, by steaming in saturated or unsaturated steam, or preferably by a dry heat treatment, for example, contact heat, a treatment with high-frequency alternating current, or infra-red radiation.

The optimum fixation conditions without damage to the fibre can be determined by a simple preliminary trial.

Fixation can also be carried out by a so-called "cold-batching" process in which the padded and squeezed fabric is batched up at room temperature without intermediate drying, wrapped in a plastic cover if necessary, and then left for some time, for example, for 24 hours, at room temperature. The fabric is finally unwrapped and freed from solvent by drying.

The following Examples illustrate the invention.

Unless otherwise stated, the parts and percentages are by weight .

E x a m p l e l A nylon 66 filament fabric (anorak fabric) is padded cold with a solution of 10 parts of the dyestuff of the formula 9 ' in 1,000 parts of dimethylacetamide, squeezed to a liquor uptake of 30 f> referred to the dry weight of the fabric, dried at 40 to 50°C in a stream of warm air and then thermo-fixed for one minute at 200°C in a thermofixa ion unit (dry air). A level, brilliant yellow dyeing is obtained in which a large proportion of dyestuff is chemically bound.

E x amp l e 2 Padding is carried out in the manner described in Example 1, but using a mixture of 900 parts of perchloroethylene and 100 parts of dimethylacetamide as solvent. The fabric is then squeezed to a liquor uptake of 42 f> referred to the dry weight of the material,, A brilliant yellow dyeing is obtained.

E x am p l e 3 The same brilliant and level dyeing as that described in Example 2 is obtained by padding in the manner described in that Example and then fixing the dyestuff by steaming for three minutes at 100°C in a pad-steam unit. The proportion of chemically bound dyestuff in the dyeing is smaller than that present in the dyeing obtained by the process described in Example 2· E x a m p l e 4 Dyeing is carried out in the manner described in Example 3, except that the substratum used is a wool fabric which, after squeezing, retains f> of dye-liquor referred to the dry weight minutes at 60 C with an aqueous solution of 2 grams per litre of the adduct of 9 mols of ethylene oxide and 1 mol of nonyl-phenol, rinsed with water and dried. A brilliant yellow dyeing containing a high proportion of chemically bound dyestuff is obtained.

E x am p l e 5 A nylon 66 fabric is padded cold with a solution of 10 parts of the dyestuff of the formula in 1,000 parts of a mixture comprising 90 o of perchloroethylene and 10 o of dimethylacetamide, squeezed to a liquor uptake of 42 fo referred to the dry weight of the material, dried at 40 to 50°C in a stream of warm air and then thermofixed for one minute at 200°C. A level, brilliant yellow dyeing is obtained in which a large proportion of dyestuff is chemically bound.

E x am p l e 6 The procedure described in Example 5 is followed, but using 20 parts of the dyestuff of the formula A level, orange dyeing containing a high proportion of chemically bound dyestuff is obtained. if E x a m p l e 7 The procedure described in Example 5 is followed, but using 20 parts of the dyestuff of the formula dissolved in dimethylacetamide without the addition of solvent and the fabric is squeezed to a liquor uptake of 350 ?¾. A level, orange dyeing containing a high proportion of chemically bound dyestuff is obtained.

E x a m p l e 8 ' - \ Dyeing is carried out in the manner described in Example 7, but using a mixture of 90 of perchloroethylene and 10 of dimethylacetamide as solvent. The padded fabric is squeezed to a liquor uptake of 42 % . A level, orange dyeing containing a high proportion of chemically bound dyestuff is obtained.

E x a m p 1 e 9 Dyeing is carried out in the manner described in Example 8, but using the dyestuff of the formula obtained by acylation with chloroacetyl chloride. A level, red dyeing containing a larger proportion of chemically bound dyestuff is obtained.

- - E x a m p l e 10 Dyeing is carried out in the manner described in Example 9, but using as substratum a polyeater fabric (Terylene twill). The padded material is squeezed to a liquor uptake of 43 "A referred to the dry weight of the material, and thermofixed for one minute at 210°0. A level, brilliant red dyeing fast to boiling is obtained.

E x a m p l e ll Dyeing is carried out in the manner described in Example 5, but using the dyestuff of the formula 0 obtained by acylation with chloroacetyl chloride. A violet dyeing containing a large proportion of chemically bound dyestuff is obtained; the dyestuff can not be extracted by boiling for two hours with a 1 : 1 mixture of dimethylformamide and water.

Level dyeings having good properties of wet fastness may be obtained by the procedure described in Example 5 using the fibre-reactive dyestuffs listed in Column I of the following table. The shades produced on nylon are indicated in Column II.

Claims (1)

1. A process for material made from hydrophobic staple fibres or filaments containing nitrogen atoms ester wherein the textile material is dyed or printed or continuously with a solution containing at least one dyestuff in a solvent or mixture of solvents that remains substantially inert towards the textile A process as claimed in claim wherein the solvent or mixture of solvents used is inert towards the textile material at the dyein A process as claimed in any one of claims 1 or the fabric is printed and then subjected to a heat treatment to fix the dyestuff on the A process as claimed in claim wherein the tion is carried out by a dry heat treatment at a temperature below the softening point of the A process as claimed in claim wherein the tion is carried out at a temperature of from 170 to A process as claimed in claim wherein the fixation is carried out by A process as claimed in any one of claims 3 to the fabric is dried prior to fixation of the A process as claimed in claim wherein the solvent is removed by A process as claimed in any one of claims 1 to in the textile material is washed in an aqueous medium after dyeing or A process as claimed in an one of claims 1 to in the solvent used is from acidic groups and is capable of dissolving unstretched A process as claimed in any one of claims 1 to 9 wherein the solvent used is water all A process as claimed in any one of 1 to wherein the solvent used is free hydroxyl A process as claimed in any one of claims 1 to wherein the solvent is an amide of a weight fatty the solvent being used either alone or in admixture with a chlorinated A process as claimed in claim wherein the solvent is or A process as claimed in wherein the solvent used is A process as claimed in any one of claims 1 to wherein a solvent is either o in admixture with a chlorinated A process as claimed in Claim wherein is A process as claimed in any one of claims 1 to i a solvent containing hydrogen and oxygen atoms in the molecule either or in admixture with chlorinated A process as claimed in claim wherein ethylene carbonate or butyrolac is A process as claimed in any one of claims 1 to wherein a surfaetant is present in the dyeing or padding A process as claimed in any one of claims 1 to wherein disperse dyestuff is A process as claimed in wherein a stuff containing a heterocyclic residue is A process as claimed in claim wherein a containing a aliphatic acyl group is A process as claimed in claim wherein a stuff containing at least one chloroacetyl group is A process as claimed in any one of claims wherein wool is A process as claimed in any one of claims 1 to wherein nylon fibres are A process as claimed in any one of claims 1 to wherein polyester fibres are A process as in claim 26 or wherein the padded fabric is kept at room temperature until the dyestuff is A process as claimed in claim 26 or wherein tion is carried out in the presence of an agent capable of binding acid with the application of A process as claimed in claim wherein any of the starting materials specified herein are used substantially as A process as claimed in claim conducted tially as described the Examples or with reference to the Table dyed or printed by a process claimed in any one of claims 1 to insufficientOCRQuality