DE738532C - Process for improving the spinnability of man-made staple fibers - Google Patents

Description

Process for improving the spinnability of man-made staple fibers Most cellulose and similar synthetic staple fibers made from regenerated cellulose, Cellulose esters and ethers as well as formed proteins have an extraordinarily high quality smooth surface it, along with the silk-like softness of this Synthetic fibers make it difficult for the spinner to produce perfect and uniform webs to produce this fiber material. Even the formation of the fleece is a thing of the past with some cellulose fibers difficult to reach, and in the finished web the individual threads slide apart; the webs therefore show unusable strengths. These difficulties are Particularly large in the production of pure cellulose spun, but they also step in the production of mixed spun staples from rayon with silk, wool, cotton, Linen and similar native fibers.

Certain means have now been suggested. about spinning ability increase of synthetic fibers; namely the esters of high molecular weight fatty acids with aliphatic oxyalkylamines serve this purpose. However, these esters do no sufficient reduction in surface smoothness, and with these compounds alone was not enough. You can also find cellulose that z. B. with Mixtures of Ca salts of metaphosphoric acids, peanut or olive oil sulfonates and Palmitinsäuretriethanolaminestern are treated. The Ca salts are the Sulfooleates and the poorly soluble phosphates - the oxalkylamine fatty acid esters the fiber. down, which take the smoothness of the synthetic fibers away and to form a sticky yet smooth film on the individual fibers. With such means is now by no means easy to work, and the effect achieved is often different despite careful monitoring of the preparation baths, whereby the lots often show very different spinning properties. A big disadvantage of one Fiber treated in this way is also due to the fact that these agents are only imperfect and can be removed with expensive detergents. But they won't or will incompletely removed, then such a web or one made from it can be Tissue, Do not dye knitted fabrics etc. or only dye them completely unevenly.

It has now been found that in a simple way the various Synthetic staple fibers their smooth surface can be taken, and this gives them a excellent easy spinnability obtained. This is achieved in that the Synthetic fibers made from regenerated cellulose, cellulose ethers or esters or from molded ones Treated proteins with solutions of such alkylolamine bases or their salts which are high molecular weight by introducing the residues of Abietens or its derivatives have become and which still have at least one free hydroxyl group as a constituent of the alkylolamine.

The procedure. will be explained in more detail by the following examples: Example i Viscose cellulose wool is treated in the cutting machine with a solution which contains ig / 1 of a condensation product of trioxethylamine-Na and chlorinated salts. The condensation product is in the form of its acetic acid salt, it is formed according to the following equation: This treatment makes the staple rayon excellent spinnable; in addition, it can be colored with difficult to level substantive dyes without pre-cleaning and still shows a certain hydrophobicity even after dyeing. Example 2 A viscose cellulose wool obtained by the draw spinning process is treated in the tow with ig / 1 of a condensation product made from dioxethylamine-Na and the ester of abietinol and monochloroacetic acid. The condensation product used is produced according to the following equation The treatment takes place on the turntable before cutting. The rayon can be spun without any problems.

Claims (1)

PATENT CLAIM: Process for improving the spinning ability of Artificial staple fibers by reducing the surface smoothness, characterized in that that the synthetic fibers with solutions of such high molecular weight alkylolamine bases or their Salts are treated by the ethereal introduction of the remnants of abiet or its derivatives have become high molecular weight and still have at least one free Contain hydroxyl group as part of the alkylolamine.