DE708175C - Process for the production of waterproof fabrics - Google Patents

Description

Process for the production of waterproof fabrics It has been found that .man textile fabric can thereby be made waterproof with particular advantage that they can be re-oiled by polymerizing mixtures of vinyl esters and fatty oils the method known from the patent specification 54 $ 151 as well as your method of the patent bent 16o available compounds coated or impregnated. For the production the coatings or impregnations are solutions of these compounds, for example in a fraction of Java petroleum, turpentine oil, tetrahydronaphthalene boiling at 16o to 170 ° C, Esters, such as ethyl or butyl acetate and the like, or in mixtures of such solvents with hydrocarbons, chlorinated carbon, hydrogen, etc.

This production of waterproof fabrics stands out against the known procedures. initially through the simplicity and economy of the Way of working. It is sufficient, for example, simply linen with the sealing solution to coat or to immerse it in 'this and then dry the fabric permit. Above all, however, one obtains substances with the new process that are perfectly Water resistance an exceptional resistance to mechanical impacts, combine constant exposure to sunlight and changing weather conditions.

The substances treated according to the invention have the further advantage not to be sticky at the highest summer temperatures, but through suitable additives, for example by rubber, for temperatures of about 100 ° C to be made adhesive. This makes it possible to use mechanically reinforced, to produce multi-layered fabrics by painting them with the above preparations or impregnated fabric web on one side or on both sides other fabric taps at increased Temperature. The connection can be made by ironing, calendering, pressing and the like happen. The applied cover fabric can also be used with the existing connections may or may not be dealt with. On them can after the same Method further reinforcement layers are applied. The layers adhere , extraordinarily tight to each other.

The durability and resistance of the single or multi-layer, waterproof fabrics can be further increased, that he she vulcanized. This is sufficient for a single-layer, impregnated one, for example Linen is hung for one hour in a finite sulfur chloride vapor = filled room at ordinary temperature.

Since polymers of vinyl esters have very different compositions and fatty oils are available, so there is the possibility of using appropriate Selection of the properties of the impregnated fabrics, 1) ice cream% veis, e their flexibility and smoothness to suit the intended use to a large extent. Another influence is through additives of various kinds, such as plasticizers or Siccatives, possible. The addition of rolling rubber has proven to be particularly good.

The watertight steps obtained in this way are ideal as tent tarpaulins, for wind coats, as folding boats. Like., Also as oilcloth, synthetic leather, etc. Tubes can be made from tubular woven fabrics in a simple manner. The multi-layer fabrics are also particularly suitable as floor coverings, wall coverings, insulation material and the like. In all of these uses, the nice fabrics are known to date because of their exceptional durability and unalterable flexibility in connection with waterproofness. Example 1 Lcinivand is used with a finite Iiol) a siccative 70% solution of a polymerisation product produced by the process known from patent 548 151 from 30 parts of vinyl acetate and 70 parts of low-dispersion flax oil. After drying, a completely watertight, pliable, crease-proof, non-sticky layer is created, the excellent properties of which are not diminished even after quarterly storage in the sun and rain and with continuously fluctuating coverage with water. Beisrpiel2 Same parts of one; o-oigen solution of a polymerization product prepared by the process known from patent 548 151 from 3o parts of vinyl acetate and 7o parts of low-disperse linseed oil phase in a fraction of Java petroleum boiling at 16o to 170'C and a 4o / o solution of crude rubber in benzene are combined and mixed with Iiobaltsikkativ offset. This solution is used to impregnate canvas. After the impregnation has been dried at room temperature, the substance is etched for one hour with vapors of chlorosulfur diluted with air. B, ci at least equal watertightness, flexibility and smoothness, the fabric obtained in this way proves to be even more resistant to mechanical stresses than the fabric according to Example i. Example 3 With the solution mixture described in the examples, canvas is painted once on both sides. After drying, the linen web pretreated in this way is placed between two canvas taps, the inside of which has been painted in the same way. By pressing at 10 ° C and under a pressure of 20 kg per cm- °, a three-layer material is created, the layers of which adhere extremely tightly to one another. It proves to be completely water-resistant and watertight and retains its pliability even when stored outdoors for six months and with alternating strong sunlight and rain.

Claims (4)

PATFXTANSrrl ", Cflr: t. Manufacture of waterproof fabrics, thereby characterized in that textile threads are made with by polymerizatian of mixtures Vinyl esters and fatty oils according to the method known from patent 548151 as well as compounds obtainable by the method of patent 6o9 16o or impregnated. 2. The method according to claim i, characterized in that the polymerization products are used in a mixture with rubber. 3. Method according to patent claim 2, characterized in that the material webs according to after drying by pressing at an elevated temperature to form multiple layers with one another Tissues are united. 4. The method according to claims i to 3, characterized characterized in that the waterproofed fabrics of a vulcanizing treatment subject.