A textile fabric having improved properties, variously including surface stability, abrasion resistance, resistance to edge fraying, moisture control, and resistance to fluid penetration is created by introducing a polymeric solution or a plurality of low-melting particles suspended in a liquid into the textile fabric while leaving a plurality of surface fibers exposed and maintaining a textile feel on the surface.

An interpenetrating network (IPN) polymer membrane material includes a soft polyurethane interspersed with a crosslinked conducting polymer. The material can be reversibly “switched” between its oxidized and reduced states by the application of a small voltage, ˜1 to 4 volts, thus modulating its diffusivity.

Result of the successive steps described in this invention: light, durable, decorative elements having a stable three-dimensional shape are obtained. The mounting method is in such a way as not to damage the surface.

The manufacturing method described in this invention implies do not use ready-made material, but create each product by hand puling out very small strands of natural organic fibers of fine wool, a layer-by-layer application to the template/mold takes place and a further multistage process of forming the product.

Then polyurethane varnish is applied in accordance with a specific technology disclosed in this invention and each individual element is formed, then leaving the elements to dry completely naturally at room temperature;

After each element is dry and three-dimensional stable, need gluing at least one magnet to the surface of each element, also need gluing the magnet to the surface using double-sided tape according to the number of magnets located on each individual element and last step to connecting of magnets on each element with a magnet on the surface;

Decorative elements created according to the method of this invention do not need a rigid base and have good adhesion to the wall without drilling holes in the wall.

These elements are intended for decoration of interior surfaces, in particular, but not exclusively walls, in order to decorate the interior and improve the emotional wellbeing of people of all ages. Despite the stable three-dimensional shape, these decorative elements are safe to use, because they are easily to attach without any secondary skills and safely, injury is excluded when the decorative element falls because they are lightweight and do not have hardness that can cause harm in the event of fall, this makes a high level of safety.

Natural wool is a difficult material to produce sculpted three-dimensional shapes that can be attached to a wall. A common practice of natural wool fibers is to two-dimensional art or suspended three-dimensional objects not represent attached to a wall. Therefore, the technology of creating decorative elements from natural non-spun wool fiber is a new level of development of the decor of working with natural wool fibers.

Articles, such as garments, including films comprising dried aqueous polyurethane dispersions are disclosed, whereby the garment has an altered stress which is exhibited during wear of the garment. The film may be bonded to the fabric of the article to provide a fabric or film laminate.

Articles, such as garments, including films comprising dried aqueous polyurethane dispersions are disclosed, whereby the garment has an altered stress which is exhibited during wear of the garment. The film may be bonded to the fabric of the article to provide a fabric or film laminate.

A soil-resistant fiber fabric having excellent water/oil repellency and excellent soil dirt resistance is obtained by fixing colloidal silica to a fiber fabric, and by subsequently treating the fiber fabric with a water/oil repellent fluorine compound, thereby having the water/oil repellent fluorine compound adhere to a surface of the fiber fabric.

A method of preparing a water-repellent and moisture-permeable fabric, includes: preparing a water-repellent fabric by: immersing a raw fabric in a non-fluorinated water-repellent emulsion containing a non-fluorinated water repellent and an aqueous blocked polyisocyanate crosslinking agent; and drying and curing the raw fabric, which has been immersed, at a temperature of 150° C. to 200° C.; applying a polyurethane-based moisture-permeable coating liquid to the water-repellent fabric; and drying the water-repellent fabric while increasing a temperature from 100° C. to 150° C.

A method of preparing a water-repellent and moisture-permeable fabric, includes: preparing a water-repellent fabric by: immersing a raw fabric in a non-fluorinated water-repellent emulsion containing a non-fluorinated water repellent and an aqueous blocked polyisocyanate crosslinking agent; and drying and curing the raw fabric, which has been immersed, at a temperature of 150° C. to 200° C.; applying a polyurethane-based moisture-permeable coating liquid to the water-repellent fabric; and drying the water-repellent fabric while increasing a temperature from 100° C. to 150° C.

The present invention relates to a method of manufacturing a high tenacity yarn and a high tenacity yarn manufactured thereby. More particularly, the present invention relates to: a method of manufacturing a high tenacity yarn, the method including coating a yarn made of at least one of nylon and polyester to obtain a coated yarn, wherein the coating material contains 3 to 35 parts by weight of a reinforcing agent composed of a mineral material per 100 parts by weight of a coating liquid containing polyurethane; and a high tenacity yarn manufactured thereby. Therefore, it is possible to manufacture a yarn having high tenacity and improved processability by processing a nylon or polyester yarn having a relatively low tenacity as compared with a high modulus polyethylene (HMPE) yarn by use of a yarn coating technique, and further to reduce production cost.

The present invention relates to a method of manufacturing a high tenacity yarn and a high tenacity yarn manufactured thereby. More particularly, the present invention relates to: a method of manufacturing a high tenacity yarn, the method including coating a yarn made of at least one of nylon and polyester to obtain a coated yarn, wherein the coating material contains 3 to 35 parts by weight of a reinforcing agent composed of a mineral material per 100 parts by weight of a coating liquid containing polyurethane; and a high tenacity yarn manufactured thereby. Therefore, it is possible to manufacture a yarn having high tenacity and improved processability by processing a nylon or polyester yarn having a relatively low tenacity as compared with a high modulus polyethylene (HMPE) yarn by use of a yarn coating technique, and further to reduce production cost.