PL7445B1 - The way of changing the dyeing properties of fibrous materials. - Google Patents

Description

Priority: July 14, 1925 for claims 1; November 21, 1925 for claims 2-4; June 5, 1926 for claims 5-7 (Germany). Various methods have been tried so far to alter the staining capacity of vegetable fibers, either by acetylation, benzolization or the like; The present invention relates to a new process which consists in the fact that cotton or other fibers containing cellulose are treated in the presence of alkali with halogen and phosphorus compounds, thereby yielding new products. Apart from purely inorganic phosphorus chlorides, such as trichloride Phosphorus, phosphorus oxychloride, etc., organically substituted phosphorus halides can also be used. The fibers treated in this way lose their ability to be dyed with direct dyes, but have the ability to dye with basic dyes without prior patching. the present one can be applied not only to vegetable fibers but also to artificial silk made of cellulose-containing materials. Artificial silk, made of regenerated cellulose, relatively hydrated cellulose, such as continuous silk (viscose), amion-copper silk, collodion silk, treated with halogen compounds and phosphorus, thanks to which they acquire the same dyeing properties as vegetable fibers, that they dye with permanent dyes, not with direct dyes and with direct dyes. they operate in the presence of alcohols. It has turned out, however, that the treatment with alkali may be effective before or after the treatment with phosphorus halogens, and that the treatment with halogens may be carried out with or without the presence of alkali. It is also possible to soak in water or in inert solvents between individual treatments and, if necessary, to dry. Artificial silks are treated in exactly the same way as vegetable fibers. The same effect is achieved without the use of alkali. For this purpose, dissolved compounds of phosphorus halogens are mixed directly with the fibrous tissue. It is also possible, depending on the concentration, to add acid-binding acids, such as qp, to the fibers or the calf leaven. sodium bicarbonate, calcium carbonate and the like (to neutralize the acid that is released. Thus, not only fibers containing cellulose, but also artificial silk, consisting of regenerated cellulose, continuous silk (viscose) can be changed. , monolith silk and collodial silk, with cellulose esters or cellulose etets, such as acetate silk. This enables continuous silk (viscose) to neutralize direct dyes and to make acetate silk basic to By using the present method in its variations for dyeing yarns, it is possible to advance, thanks to the resistance of the line of direct dyes, and the dyeing properties with basic dyes, to ease the veins with the usual intervals as threads for imparting effects to the fabric, thus for dyeing (with dyes) white effects appear in the middle of the normally colored strands. Two-color effects are achieved by using in the fabric before being pre-dyed and treated, and then dyed with a different color. The condition for the formation of the mentioned effects is that the fibers that create the effects must be chemically transformed. The creation of color-white or bicolor effects is also achieved by local The action of fdsifort halogens on a uniform fibrous material.Then it is usually done in such a way that the protection is first printed on the fibers, because the presence or absence of alcalis is out of the question, and then, in combination with: A variation of this method is based on the fact that with the simultaneous use of alkali, by direct overprinting of the alkaline concentration and subsequent immersion in the phosphorus solution, a local chemical reaction can take place simultaneously. dye print densely, .The above methods of stack; they are used also for the processing of jumble of vegetable and artificial fibers, thanks to the jam after subsequent dyeing, so-called color effects are created. This method can also be applied to fabrics, whereby a white or colored effect is obtained on a colored background. The material treated in this way is soaked in a solution containing 200 g of phosphorus trichloride per liter of xylol. Within a short time there is a reaction causing the temperature to rise. Then the yarn loosens well, soaps and dries. dyeing with direct dyes, see Example II. The cellulose-containing fabric is converted into sodium fiber in a manner known per se with the aid of sodium liquor. After removing the excess lye, the cloth is passed through the apparatus, filled with 10% phosphorus oxychloride in benzene. After the completed reaction, the material turns loose and stains with basic dyes without pre-impregnation. PL

Claims (7)

Patent claims. 1. Method of changing the coloring properties of fibrous niaterials, - characterized by the fact that the phosphorus compounds act on the plant fibers in the presence of alkali. 2. The method according to claim A method as claimed in claim 1, characterized in that the halogen compounds of phosphorus are applied to artificial silks made of cellulose-containing materials. 3. The method according to p. The method of claim 1, characterized in that the treatment with alkali performs either before or after, separately from the treatment of the fibers with the halogen compounds of phosphorus. 4. The method according to p. The method of claim 1, characterized by the fact that the treatment of vegetable fibers or artificial silk of any kind is effective in the absence of alkali, with the use of alkali-reactive salts, or agents which neutralize acids and react alkaline in this case. 5. The method according to the procedure, characterized by the fact that the chemical interaction of phosphorus halides on the fibers takes place only in places. 6. The method according to p. 1 and 5, the significant aspect that the fibers are imprinted with a density and then treated with phosphorus halides with or without alkalization. 7. The method according to p. 1 and 5, the noteworthy point that alkalization is effected by directly printing the wet base on the fabric and then treating it with a phosphorus pollutant. Heberlein & Co. Al - G. Zastepca: Inz. M. Zoch, patent attorney. fruk L. Boguslawski, Warsaw * PL