DE1222015B - Process for finishing textile goods - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

Number:
File number:
Registration date:
Display day:

D 06m

German class: Sk -1/30

1 222 015
B71821IVc / 8k
May 9, 1963
4th August 1966

It is known that textiles made from fiber-forming materials that contain reactive hydrogen atoms z. B. from cellulose, regenerated cellulose, wool and their mixtures with each other and with synthetic Fibers, to be refined by treating the goods with solutions of sulfur-containing organic compounds, which can react with the fiber-forming substances while being crosslinked, and with alkaline ones Treated fabrics. As sulfur-containing organic compounds for this purpose are special the dihydroxy ^ diethyl sulfone, the dihydroxy diethyl sulfoxide and their derivatives became known. However, these substances have the disadvantage that they cause the textile material treated with them to turn yellow. In addition, their toxicity makes it difficult to use.

The disodium salt of tris - (/ 3-sulfoethyl) sulfonium has recently been used as a sulfur-containing organic compound recommended. When using this connection, the high procedural effort interferes, which manifests itself in a lengthy, usually multi-stage treatment that is required to treat the Carry out reaction with the textile, remove by-products and the yellowing of the treated To remove textile goods.

It has now been found that, without the disadvantages mentioned, textile material from fiber-forming Substances that contain reactive hydrogen atoms by treatment in any order with Can refine solutions of sulfur-containing organic compounds and alkaline substances, if, as sulfur-containing organic compounds, substances of the general formula

X —R \
X-R '/

/ R '- X ^S R' - X

used, in which R is divalent aliphatic, aromatic or aliphatic-aromatic radicals with 1 to

Na - SO ₃ - O - CH ₂ - CH ₂

Process for finishing textile goods

Applicant:

Aniline & Soda Factory in Baden

Aktiengesellschaft, Ludwigshafen / Rhein

Named as inventor:

Dr. Heinz Bille, Limburgerhof;

Dr. Harry Distler,

Dr. Georg Dittus,

Dr. Werner Müller,

Dr. Wilhelm Rüttiger, Ludwigshafen / Rhine

Carbon atoms, Y a radical of the formula - O -, - S - or

©
- S -

R ' - X

the radicals denoted by R ″ identical or different alkylene groups with 2 to 4 carbon atoms, X radicals of sulfuric or phosphoric acid bonded via an ester bond, η one of the integers 0 to 25, Q the equivalent of a cation, preferably an alkali metal or an unsubstituted one Ammonium ion, and m is the number of uncompensated negative charges present in the anion.

Because of their easy technical accessibility, those substances are named above Formula preferred in which the radicals R are alkylene radicals having 2 to 10 carbon atoms.

As examples of compounds of the abovementioned

The following formula may be mentioned:

CH ₂ - CH ₂ - O - SO ₃ Na

S - CH ₂ - CH ₂ - O - CH ₂ - CH ₂ - S

SO ₃ -O- CH ₂ - CH ₂
Na - SO ₃ - O - CH ₂ - CH ₂

S-CH ₂ - CH ₂ - S

SO ₃ -O- CH ₂ - CH ₂

CH ₂ - CH ₂ - O - SO ₃
^ CH ₂ - CH ₂ - O - SO ₃ - Na

^ CH ₂ - CH ₂ - O - SO ₃

609 608/366

Na-SO ₃ -O-CH ₂ -CH ₂ CH ₂ -CH ₂ -O-SO ₃ -Na

S - (CH ₂ ) ₄ - S

SO ₃ -O- CH ₂ - CH ₂

Na - SO ₃ - OCH ₂ - CH ₂

CH ₂ - CH ₂ - 0 - SO ₃

CH ₂ - CH ₂ - O - SO ₃ - Na

S - (CH _{2) 4} - 0 - (CH _{2) 4} - S

SO ₃ -O- CH ₂ - CH ₂

The compounds of general formula I are in the form of their solutions, especially their aqueous Solutions applied. Bring them in the usual way, e.g. B. by knife coating, spraying, dipping or preferably by padding on the fiber material to be treated. It has proven itself the solutions to bring in such an amount on the material to be treated that 0.05 to 1 mol of the compounds of Formula I come to 1 kg of material to be treated.

In addition to the solutions mentioned, alkaline substances are required for the process according to the invention, ζ. B. alkali metal hydroxides. These, too, are preferably used in the form of their aqueous solutions. The solutions of the alkaline substances and those of the substances of the formula I are in any order applied to the item to be treated. So you can either start with the former and then the latter raise; but you can also proceed the other way round. It is for the method of the invention However, it is generally disadvantageous to apply both solutions at the same time, because this results in a part of the Substances of the formula I can be chemically changed before it is in contact with the material to be treated. An embodiment of the present method which is particularly useful when, as below explained, common high finishing agents are also used, consists in the fiber material first with the to treat aqueous solution of a substance of the formula I and then in the aqueous solution of a alkaline substance. The solution of the alkaline substance can be at any temperature have between their melting point and their boiling point; particularly simple and therefore preferred is to use the solution of the alkaline substance at room temperature. It is usually sufficient exposing the material to be treated to the alkaline solution for 10 seconds to 5 minutes; one can however also extend the exposure time, e.g. B. up to 15 minutes.

If you do not use conventional high-quality finishing agents, it is more advantageous to first soak the item to be treated with the alkaline solution and, when this has acted for 2 to 20 minutes, the solution of a substance of the formula I on the textile material bring to.

It is particularly advantageous, in addition to the substances of the formula I, to also use customary crosslinking high-quality finishing agents and, if appropriate, acidic or potentially acidic catalysts for their reaction with the fiber material. Conventional crosslinking high-quality finishing agents include, in particular, N-methylol compounds of compounds containing urea, urethane or carboxamide groups, ζ. B. of urea, melamine, ethylene urea, propylene urea, glyoxal monourein, glyoxaldiurein, adipic acid diamide, butanediol diurethane, tri-CH ₂ - CH ₂ - O - SO ₃

azinones, urons, the methylol compound of acetone, ethers of the methylol compounds mentioned with low molecular weight alcohols, formals and epoxy compounds such as diglycol diglycidether and triglycol diglycidyl ether. It is beneficial and labor-saving to do the usual networking To use high finishing agents together with the substances of formula I in one bath. Concentrations of 10 to 200 g / l of customary high-quality finishing agents are particularly useful proven. If necessary, acidic or potentially acidic catalysts are also used in the baths for the implementation of the usual high finishing agents with the textile material. Such catalysts are common; Examples include: Medium-strength organic acids, such as Formic or acetic acid, strong inorganic acids such as sulfuric acid, acidic salts strong acids such as magnesium chloride, zinc chloride, zinc nitrate or zinc fluoborate, ammonium and Amine salts of strong acids such as ammonium chloride or diethanolammonium chloride.

If you also use common high-quality finishing agents and catalysts, it is advisable to to carry out the process according to the invention according to the following scheme:

1. Padding the aqueous solution of a substance of the formula I, a customary high-quality finishing agent and a catalyst,

2. Drying the item to be treated,

3. Implementation of the customary high-quality finishing agent through thermal or residence treatment,

4. Treatment with an alkaline agent to convert the compound of formula I.

It has also proven particularly useful, the aqueous solutions of substances of the formula I, the if desired, contain customary crosslinking finishing agents and associated catalysts, Add polymer dispersions or solutions, as they are commonly used in textile finishing are e.g. B. Dispersions of acrylic acid ester homopolymers and copolymers, dispersions of polyethylene and solutions of polyacrylamide. Also plasticizers, such as oxyethylation products of higher molecular weight fatty acids can easily be used as well.

The percentages given in the examples are weight units.

example 1

A piece of fabric of a cotton imitation popeline of 132 g / cm ² is padded at room temperature with an aqueous solution of 80 g / l of a compound whose constitution corresponds to formula II, squeezed off to 75% liquor pick-up and through a.

Out of padding trough, in which there is an aqueous 10% sodium hydroxide solution, again to approximately 100% liquor uptake squeezed off and rinsed out after a dwell time of 2 minutes and made neutral washed. The fabric is dried and conditioned. The technological ones that can be determined afterwards Data are related to the baseline values from the table below, column 2 remove.

Example 2

A piece of fabric, as it is also used in Example 1, is padded at room temperature with an aqueous solution of 80 g / l of the chemical substance formula II, 40 g / l dimethylolpropyleneurea and 15 g / l magnesium chloride (hydrated), on a liquor application of 75% squeezed out, dried at 80 ⁰ C, air conditioned to a residual moisture content of 6 to 8%, 5 minutes to condensation of the Dimethylolpropylenharnstoffs to 15O ⁰ C heated, then padded with a 10% aqueous sodium hydroxide solution, squeezed to 100% wet pick-up and after 2 minutes Rinsed residence time at room temperature and washed neutral. The technological values that can be determined on this fabric are listed in column 3 of the table below.

Example 3

A piece of fabric is finished in the manner described in Example 1. Be there 80 g / l of a compound according to formula III are used.

The values of the technological test of the fabric are in the table below in column 4 listed.

Example 4

A piece of fabric is highly refined in the manner described in Example 2. Besides that there 40 g / l dimethylolpropyleneurea and 15 g / l magnesium chloride (hydrated) are used here 80 g / l of the chemical compound formula III are still used. The values of the technological test of the fabric are listed in column 5 of the table below.

Untreated fabric

tissue

treated

according to example 1

Example 2

4th
Example 3

Example 4

Crease angle

dry in ■ £ ° according to DIN 53890
Sum of warp + weft

Crease angle
wet in ■ $. ° according to Tootal
Total warp 4- weft

Tear resistance
in kg
50 200 mm according to DIN 53801.

120

150

37.5

120

160

37.5

165

260

32.5

185

260

31.5

190

250

33.5

280

270

285

280

25th

280

280

25th

290

280

Column a: values after the equipment. Entrance of the laundry at 60 ⁰ C

Column b: values after a machine wash. heated to 90 to 95 ° C within 10 minutes,

Liquor ratio 1: 10 washed for 20 minutes at this temperature,

with 5 g / l soap and 2 g / l soda, then four rinses and spin off.

Example 5

An undyed, washed fabric made of pure wool in a plain weave, which has a weight of 185 g / m ² , is impregnated with a 3% strength aqueous solution of sodium bisulfite, which has a pH of 4.5, and remains at room temperature for 10 minutes left, rinsed and dried.

The fabric is then impregnated on the padder with 4% sodium hydroxide solution and 60% Liquor pick-up squeezed. In a second foulard passage, an aqueous one is applied to the moist material Solution padded out that contains 120 g / l of the substance of formula II; the total fleet pick-up is 95%. The fabric is allowed to stay for 15 minutes at room temperature, and it is washed neutral and it dries.

The thus treated fabric has after three Wash at 6O ⁰ C and soap and soda Krumpfwert a 2-3%, while the Krumpfwert the same fabric before the inventive treatment is from 8 to 10%. Neither the strength nor the feel of the fabric is affected by the treatment.

Claims (3)

Patent claims: 1. Process for finishing, in particular creased material removal, of textile material from fiber-forming Substances that contain reactive hydrogen atoms, by treating the goods in any Sequence with solutions of sulfur-containing organic compounds and with alkaline substances, characterized in that, as sulfur-containing organic compounds, substances of the general formula S-R-fY R '-X used, in which R is divalent aliphatic, aromatic or aliphatic-aromatic radicals with 1 to 10 carbon atoms, Y a radical of the formula - O -, - S - or ©
- S— R '- X the radicals denoted by R 'are identical or different alkylene groups with 2 to 4 carbon atoms, X radicals of sulfuric or phosphoric acid bonded via an ester bond, η one of the integers 0 to 25, Q the equivalent of a cation and m the number of those present in the anion means uncompensated negative charges. 2. The method according to claim 1, characterized in that one also conventional crosslinking Refinement agents and optionally acidic or potentially acidic catalysts for their implementation is also used with the textile goods. 3. The method according to claim 1 or 2, characterized in that one is also used in textile finishing customary polymer dispersions or solutions are also used. Considered publications:
Belgian Patent No. 615,318;
Portuguese patent specification No. 38 099 (referenced in the chemical Zentralblatt, 1963, p. 7587). 609 608/366 7.66 © Bundesdruckerei Berlin