Patent application number | Description | Published |
20130112499 | ACOUSTIC COMPOSITE - An acoustic composite containing at least a first acoustically coupled non-woven composite and a second acoustically coupled non-woven composite, each acoustically coupled non-woven composite containing a non-woven layer and a facing layer. The non-woven layer contains a plurality of binder fibers and a plurality of bulking fibers and has a binder zone and a bulking zone. The facing layer of the second acoustically coupled non-woven composite is adjacent the second surface of the non-woven layer of the first acoustically coupled non-woven composite. | 05-09-2013 |
20130112625 | CONSOLIDATED NANOFIBER NONWOVENS AND CONSOLIDATED NANOFIBER NONWOVEN COMPOSITES CONTAINING ROPED FIBER BUNDLES - A consolidated nanofiber nonwoven comprising a plurality of roped fiber bundles having a length axis. The roped fiber bundles comprise a plurality of nanofibers having a median diameter of less than one micrometer, where at least 50% by number of the nanofibers are oriented within 45 degrees of the length axis of the roped fiber bundles. The nanofibers within the same roped fiber bundle are entangled together. The roped fiber bundles are randomly oriented within the nanofiber nonwoven and are entangled with other roped fiber bundles within the nanofiber nonwoven. At least a portion of the nanofibers are entangled with and adhered to other nanofibers within the same roped fiber bundle and at least a portion of the roped fiber bundles are entangled with and adhered to other roped fiber bundles within the consolidated nanofiber nonwoven. | 05-09-2013 |
20140083066 | PROCESS FOR FORMING A HIGH EFFICIENCY NANOFIBER FILTER - A process for forming a high efficiency filter containing the steps of forming a non-woven layer having pores from a plurality thermoplastic fibers having a median diameter of less than about 2 micrometers, saturating the non-woven layer in a wetting liquid, and drying the wetted non-woven layer. | 03-27-2014 |
20140144095 | METHOD OF STRENGTHENING EXISTING STRUCTURES USING STRENGTHENING FABRIC HAVING SLITTING ZONES - Disclosed is a method of strengthening existing structures containing the following steps. An existing structure made of concrete, steel, timber, masonry to be reinforced and a reinforcing sheet are provided, where the reinforcing sheet contains an alternating arrangement of reinforcement zones and slitting zones. The reinforcement zones contain unidirectional strengthening fibers in the warp direction of the reinforcement sheet and the slitting zones have an absence of strengthening fibers. The reinforcement sheet is slit through the slitting zones and the reinforcement zones are adhered to the existing structure. | 05-29-2014 |
20150099098 | COMPOSITE TEXTILE - A flexible textile or cloth is provided that can be hardened to a rigid or semi-rigid condition. The textile can incorporate reinforcement fibers to provide improved mechanical properties. The reinforcement fibers can be added in a various configurations without unnecessarily increasing the weight of the textile. Further, the textile can include at least one flap to facilitate readily joining the textile with another component such as another textile to create a composite construction. | 04-09-2015 |
20150099410 | COMPOSITE TEXTILE - A flexible textile or cloth is provided that can be hardened to a rigid or semi-rigid condition. The textile can incorporate reinforcement fibers to provide improved mechanical properties. The reinforcement fibers can be added in a various configurations without unnecessarily increasing the weight of the textile. Further, the textile can include at least one flap to facilitate readily joining the textile with another component such as another textile to create a composite construction. | 04-09-2015 |
20150352804 | CEMENTITIOUS COMPOSITE - An improved, composite textile that can become rigid or semi-rigid by e.g., applying a liquid is provided. The composite can include a high loft non-woven layer having a first face and a second face and a midpoint between the first face and the second face. The high loft non-woven layer includes bulking fibers crossing the midpoint plane that form a tangential line at the midpoint plane that is at non-zero angle as set forth herein. | 12-10-2015 |
20150352809 | CEMENTITIOUS COMPOSITE - An improved, composite textile that can become rigid or semi-rigid by e.g., applying a liquid is provided. The composite can include a high loft non-woven layer having bulking fibers and a binding material; a cured rigid or semi-rigid solid located in the high loft non-woven; a filter layer on a first face of the high loft non-woven layer; and a liquid barrier layer on a second face of the high loft non-woven layer. The liquid barrier layer may have a difference in in-plane stiffness as set forth herein. The distance between the first face and second face of the high loft non-woven layer may not vary by more than a certain localized distance across the high loft non-woven layer when the high loft non-woven layer is in a flat state or has a radius of curvature of not less than the thickness of the non-woven layer as set forth herein. | 12-10-2015 |
20150354239 | METHOD OF STRENGTHENING EXISTING STRUCTURES USING STRENGTHENING FABRIC HAVING SLITTING ZONES - Disclosed is a method of strengthening existing structures containing the following steps. An existing structure made of concrete, steel, timber, masonry to be reinforced and a reinforcing sheet are provided, where the reinforcing sheet contains an alternating arrangement of reinforcement zones and slitting zones. The reinforcement zones contain unidirectional strengthening fibers in the warp direction of the reinforcement sheet and the slitting zones have an absence of strengthening fibers. The reinforcement sheet is slit through the slitting zones and the reinforcement zones are adhered to the existing structure. | 12-10-2015 |