TH10347B - Method for making the materials that make up the super absorbent that is braided by hydraulic system. - Google Patents

Abstract

The invention reveals a method for making a material that constitutes a super-absorbent containing a hydraulically-braided fiber membrane and a super-absorbent material. This method includes the process of having non-woven membranes. The fibers are hydraulically braided to enhance the diffusion properties and the dry conduction of super-absorbent material into the homogeneous binding contact on at least one surface of the fiber membrane. that are woven by the hydraulic system, as well as revealed materials composed of super-absorbent non-woven fibers made from the methods described. The hydraulically woven membrane elements of this material may be filled with fibers from the membrane. synthetic fiber natural fiber two-component fiber a fiber that is continuous or mixed in it The superabsorbent composite material has a saturation capacity of approximately 500 percent greater and a weaving rate greater than approximately 12 cm per 15 minutes. The liquid in the product absorbs the absorbable structure.

Claims (7)

1. Method for making the material that the pressure is assembled is a super absorbent that is braided by hydraulics. The method consists of steps of Prepare the non-woven fiber pulp. Hydraulically threaded nonwoven membranes to achieve at least 10% more vertical absorption properties compared to homogeneous unwoven membranes. It is hydraulically braided and the dry supersorption of the material is applied to a homogeneous gripping feel, with at least one surface of the non-woven membrane is hydraulically woven. To form a material that makes up the super absorbent that is threaded with a hydraulic system. 2. Methods of implementation of claim 1 Here, the dry super absorbent material is applied on at least one surface of the non-woven membrane is hydraulically woven while the membrane The nonwoven fibers were then hydraulically woven and the super absorbent material was dried to produce the material that made up the super absorbent. 3. How to follow claim 1 Here, the dry super absorbent material is applied onto at least one surface of the non-woven fiber pulp, then hydraulically braided dry and connected. It is applied onto the membrane in a homogeneous grip by applying pressure to drive longer permeable material onto the non-woven fiber membrane that is hydraulically woven to produce the material. That make up the super absorbent 4. Method for claim 1 Here, the non-woven fibrous tissue is provided by impregnating a fibrous aqueous suspension onto the surface of the fibrinous surface. 5. Method for claim 1 Here, the non-woven fibrous tissue is prepared by adding water to a thin sheet consisting of fibrous fibers. 6. The Claim Method Here, the non-woven fiber membranes are hydraulically woven at intensities from approximately 15 to approximately 35% by weight of the solids. 7. Method for claim 1 Here, the hydraulic braiding is approximately 0.03 to approx. 0.001 hp - mol / lb of dry fibers. 8. Method for Claim 4 Here, the foraminus surface was selected from a group consisting of a well-plane mesh at a mesh hole size of approximately 20 x 20 to approximately 200 x 200. Effective mesh hole sizes from approx. 20 x 20 to approx. 200 x200 and a water-permeable porous plate. 9. Method according to claim 4 Here, the fibers were selected from the fibrous constituent group. Synthetic fibers Natural fibers, two-component fibers, long fibers, continuous and blended fibers 1 0. Method of claim 6 Here, fibers that are not hydraulically woven are at approx. 20 to approximately 30% by weight of solids 1 1. Method to claim 1 Here, super absorbent materials are stacked on non-woven fibers that are hydraulically braided in quantities which Classified with at least 5% of absorbable nonwoven fibers by weight of sorbent material 1 2. Method according to claim 11 Here, super absorbent material is stacked on The non-woven fibers that are hydraulically braided in quantities arranged with materials containing absorbent non-woven fibers are at least from approximately 10 to approximately 80% by weight of the material. Super absorbent 1 3. Method according to claim 11 Here, the super absorbent material is stacked on non-woven fibers that are hydraulically woven into the volume arranged with the material. Composed of absorbent non-woven fibers contain at least from approximately 30 to approximately 60 percent by weight of the material. A Super absorbent 1 4. Methods according to claim 1 Here, the drying process is based on a selected method from a group consisting of air permeability drying, infrared irradiation, Yankees dryers. 1 5. Methods of claim 1 also consist of a mechanical softening process after the drying process 1 6. Materials composed of fibers that The super absorbent nonwoven, which is hydraulically woven, is produced by the method of claim 1. Non-woven fiber membranes with hydraulic interlocking. To have at least the properties of the vertical absorption. 10 percent Compared with homogeneous non-woven membranes that are not hydraulically woven and the super absorbent material enters a homogeneous binding contact at least one surface of the non-woven membranes. Woven 1 7. The material composed of super absorbent nonwoven fibers according to claim 16 has a fundamental weight greater than approximately 10 grams per square meter 1 8. Materials The composite material of the super absorbent nonwoven fibers according to claim 16 has a more fundamental weight of approximately 25 to approximately 400 grams per square meter. Precisely according to claim 16, where the non-woven fiber sheet comprises from approximately 5 to approximately 50 percent by weight, the fiber lengths were selected from the group consisting of polyester, cotton, polyamide fiber. Polyamide fiber And polyolefin 2 0. The material composed of super absorbent non-woven fibers according to claim 18 with a basic weight from approximately 75 to approximately 150 grams per square meter 2. 1.Material composed of super absorbent non-woven fibers according to claim 16, the saturation capacity is greater than approximately 500. The percentage and vertical absorption rate are greater than about 12 cm per 15 minutes 2. 2. The super absorbent nonwoven fiber composite material according to claim 21 has a saturation capacity from approximately 600 to approximately 2500%. 3.Materials composed of super absorbent non-woven fibers according to claim 21 have an absorption rate from approximately 12 to approximately 15 centimeters per 15 minutes. 4.Material made up of super absorbent nonwoven fibers in accordance with claim 16, herein contains from approximately 5 to approximately 80 percent by weight of super absorbent material 2. 5. Materials composed of super absorbent non-woven fibers in accordance with claim 24, herein filler materials from approximately 10. Percentage to approximately 65 percent by weight of material, see superposition 2. 6. The liquid-handling component of the absorbed product. The composition consists of at least one layer of material that is made up of super absorbent nonwoven fibers in accordance with claim 16 2. 7. Absorbent structure with an abysmal component consists of at least one layer of fabric composed of super absorbent woven fibers according to claim 16.