序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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101 | Process for preparation of nonwoven fibrous web-tissue laminate | US3666594D | 1970-03-30 | US3666594A | 1972-05-30 | CONDON EUGENE H; ROBINSON JAMES E; WILLS JAMES H |
TISSUE-FIBER LAMINATES ARE PREPARED BY SUBSTANTIALLY COMPLETELY EMBEDDING A NONWOVEN FIBROUS WEB IN A PATTERNED LAYER OF A PLASTISOL ADHEVISVE WHICH IS PARTIALLY EMBEDDED IN THE TISSUE WEB. EMBEDMENT OF THE FIBROUS
WEB IN THE ADHESIVE IS ACCOMPLISHED WHILE THE ADHESIVE IS IN THE FLUID STATE BUT AT JUST ABOUT ITS GEL POINT. |
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102 | Compound bodies of aluminium plated steel stocks | US3660052D | 1969-06-03 | US3660052A | 1972-05-02 | TAKAMATSU HIDEAKI; MIYATA AKIRA; TOYABE YUTAKA |
Steel stocks in the form of the wire, plate, rod, tube, etc., having thin aluminium plated films are bonded to rubber or synthetic resin having durable bonding and good mechanical properties. Aluminium films prevent diffusion of deleterious elements in rubber into steel.
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103 | Adhesive Fabrication Process for Garments and Other Fabric Products | US15869942 | 2018-01-12 | US20180263319A1 | 2018-09-20 | Joseph E. Gallagher |
A process for fabricating a three-dimensional, multi-layered fabric product with a moisture barrier is provided. A partially seamed inner lining fabric assembly having at least a two-dimensional shape is laminated with a membrane barrier film having flaps left un-laminated to cover at least one seam. The inner lining fabric assembly is further seamed and flaps of the of the membrane barrier film overlapped into contact with each other and sealed to provide a continuous moisture barrier. A process for fabricating a stretchable section of a garment with a moisture barrier is also provided. At least a section of a garment is formed from fibers arranged in a pattern having a direction of stretch in one direction and a three-dimensional surface texture such that a portion of the fibers protrude above another portion of the fibers. The stretchable section is stretched in the direction of stretch. Segments of a membrane barrier film are adhered to an outer edge of the protruding portion of the fibers while the section is stretched in the direction of stretch, leaving intermediate segments of the barrier film free from adherence to the section. In this way, the intermediate segments of the membrane barrier film include slack that folds up to form ruches when the section is in a relaxed state. | ||||||
104 | INSULATED CONTAINER | US15959801 | 2018-04-23 | US20180244448A1 | 2018-08-30 | Robert William Menzel, JR. |
An insulated container may include a rigid container surrounding an insulation layer formed from a post-industrial, pre-consumer card waste. The insulation layer may be characterized by a lack of any wrapping material. The insulation layer may be manufactured using a variety of converting processes including, carding, airlay, and needle punch to form a non-woven material for providing consistent density throughout the insulation layer. The insulation layer may include a natural fiber lamination layer on an outer surface of the insulation layer. The insulation layer may be biodegradable in an anaerobic environment. | ||||||
105 | DUAL LAYER PLANTER LINER AND METHOD FOR MAKING SAME | US15882538 | 2018-01-29 | US20180213725A1 | 2018-08-02 | Dwayne Williams |
The present invention provides a dual layer planter liner having: (a) a first fibrous layer having an interior surface and an exterior surface, the first fibrous layer is formed into a pot for emplacing a planting medium and/or plant therein. The first fibrous layer is formed from a first fibrous material; and a second fibrous material adhered onto the exterior surface of the first fibrous layer. The adhered second fibrous material forms a second fibrous layer. The present invention, also, provides a method for making the dual layer planter liner hereof. | ||||||
106 | FLEXIBLE CELLULOSIC FIBER-BASED HONEYCOMB MATERIAL | US15482360 | 2017-04-07 | US20170210083A1 | 2017-07-27 | Hugues Prud'homme; Diego De Paoli; Michael Kumar; Marc Brassard; David James |
A flexible packaging material including: a core portion having a geometrically patterned structure defining two spaced-apart substantially planar faces and providing air space therebetween, the core portion including cellulosic fiber-based walls having a core grammage; and at least one cellulosic fiber-based liner bonded to a respective one of the planar faces of the core portion and having a liner grammage lower than the core grammage, the material being flexible along a plane defined by the at least one liner. | ||||||
107 | Adhesive Fabrication Process for Garments and Other Fabric Products | US15402330 | 2017-01-10 | US20170143059A1 | 2017-05-25 | Joseph E. Gallagher |
A process for fabricating a three-dimensional, multi-layered fabric product with a moisture barrier is provided. A partially seamed inner lining fabric assembly having at least a two-dimensional shape is laminated with a membrane barrier film having flaps left un-laminated to cover at least one seam. The inner lining fabric assembly is further seamed and flaps of the of the membrane barrier film overlapped into contact with each other and sealed to provide a continuous moisture barrier. A process for fabricating a stretchable section of a garment with a moisture barrier is also provided. At least a section of a garment is formed from fibers arranged in a pattern having a direction of stretch in one direction and a three-dimensional surface texture such that a portion of the fibers protrude above another portion of the fibers. The stretchable section is stretched in the direction of stretch. Segments of a membrane barrier film are adhered to an outer edge of the protruding portion of the fibers while the section is stretched in the direction of stretch, leaving intermediate segments of the barrier film free from adherence to the section. In this way, the intermediate segments of the membrane barrier film include slack that folds up to form ruches when the section is in a relaxed state. | ||||||
108 | MULTI-LAYER SLASH PROTECTIVE BODY ARMOR | US15299959 | 2016-10-21 | US20170115098A1 | 2017-04-27 | Charles A. Howland |
A slash-protecting panel is affordable, comfortable, flexible, light, and concealable, while providing at least 80N HOSDB slash protection. A plurality of solid elements are aligned on upper and lower backing sheets in rows and columns separated by continuous gaps between 25% and 95% as wide as the solid elements, the upper elements being centered above the gap intersections of the lower elements, leaving isolated gap “islands” uncovered but no continuous gaps. Embodiments further include a third layer with smaller “button” solid elements arranged behind the gap islands, leaving no gaps. The solid elements can be ceramic or metal, and the backing sheets can be ballistic fabric, or any convenient woven, non-woven, or warp knit. Solid elements can be attached to the sheets by rivets or adhesives, or held in pockets. Embodiments include an inner and/or an outer covering layer of a knit or similar fabric for added comfort. | ||||||
109 | Anti-Wrinkle Fabric Arrangement | US15047330 | 2016-02-18 | US20160242580A1 | 2016-08-25 | Stan Batiste; Maryanne Batiste |
A fabric arrangement is designed to prevent skin lines, wrinkle formation, or other skin damage while improving sleep using combinations of fabrics, cooling technologies and scents. The fabric arrangement is designed with a specific fabric and material combination that create a surface in which the shear stresses causing skin lines, wrinkles, and other skin damage are eliminated. Multiple layers making up the fabric arrangement include a top layer comprising a stretchable material and a second layer comprising a low friction material relative to the top layer. Supporting the first two layer is a support layer such as foam. Lower layers may comprise a cooling material, an antimicrobial or anti-allergenic material and a scent layer. | ||||||
110 | Thermally insulating stretchable down feather sheet and method of fabrication | US13999094 | 2014-01-13 | US09380893B2 | 2016-07-05 | Ronie Reuben |
A thermally insulating stretchable down feather sheet and its method of manufacture is described. The core of the sheet is comprised of down feathers mixed with a binder which exhibits elastic properties. The core is sandwiched between a top and bottom stretchable elastomeric sheet having multi-directional stretchability. The core down feathers and the binder as well as the elastomeric sheet and bound together by heat treatment to provide a down feather insulating sheet which is stretchable in all directions without fractioning the sheet. | ||||||
111 | INTERFACE CONTROL OF SEMI-CRYSTALLINE BIOPOLYMER FILMS | US14893443 | 2014-05-23 | US20160089854A1 | 2016-03-31 | Florenzo G. Omenetto; Mark Brenckle; Benedetto Marelli; David L. Kaplan; Hu Tao |
The present invention provides, among other things, compositions including a first silk fibroin layer, and a second silk fibroin layer, wherein at least a portion of the first silk fibroin layer is directly adhered to at least a portion of the second silk fibroin layer to form a silk-silk interface and methods of making the same. | ||||||
112 | Thermally Insulating Stretchable Down Feather Sheet and Method of Fabrication | US13999094 | 2014-01-13 | US20150196145A1 | 2015-07-16 | Ronie REUBEN |
A thermally insulating stretchable down feather sheet and its method of manufacture is described. The core of the sheet is comprised of down feathers mixed with a binder which exhibits elastic properties. The core is sandwiched between a top and bottom stretchable elastomeric sheet having multi-directional stretchability. The core down feathers and the binder as well as the elastomeric sheet and bound together by heat treatment to provide a down feather insulating sheet which is stretchable in all directions without fractioning the sheet. | ||||||
113 | Imitation Leather, Method for Manufacturing Imitation Leather and Method for Manufacturing Imitation Leather Material | US13465079 | 2012-05-07 | US20130295332A1 | 2013-11-07 | Chih-Hsien Huang; Kuo-Hsiung Wang |
An method for manufacturing an imitation leather includes preparing an animal skin powder, blending the animal skin powder and a matrix to form the imitation plastic material and then the imitation plastic material being cooled and granulated to form granules and melting and feeding the granules of the imitation plastic material to a sheet extruding equipment to extrude the flexible sheet imitation leather. The animal skin powder comprises an animal epidermis powder and has a particle size of 0.2 um-0.3 mm. The matrix comprises an elastic material. The animal skin powder and the matrix are blended under a blending temperature between 100-160° C. and the animal skin powder is present in the imitation plastic material in an amount of 30-70 wt %, based on the total weight of the imitation plastic material. | ||||||
114 | Flexible Cellulosic Fiber-Based Honeycomb Material | US13664964 | 2012-10-31 | US20130059097A1 | 2013-03-07 | Hugues Prud'homme; Diego De Paoli; Michael Kumar; Marc Brassard; David James |
A flexible packaging material including: a core portion having a geometrically patterned structure defining two spaced-apart substantially planar faces and providing air space therebetween, the core portion including cellulosic fiber-based walls having a core grammage; and at least one cellulosic fiber-based liner bonded to a respective one of the planar faces of the core portion and having a liner grammage lower than the core grammage, the material being flexible along a plane defined by the at least one liner. | ||||||
115 | FLEXIBLE CELLULOSIC FIBER-BASED HONEYCOMB MATERIAL | US13518536 | 2010-12-22 | US20120266568A1 | 2012-10-25 | Hugues Prud'homme; Diego De Paoli; Michael Kumar; Marc Brassard; David James |
A flexible cellulosic fiber-based material including: a core portion having a geometrically patterned structure defining two spaced-apart substantially planar faces and providing air space therebetween, the core portion including cellulosic fiber-based walls having a core grammage; and at least one cellulosic fiber-based liner bonded to a respective one of the planar faces of the core portion and having a liner grammage lower than the core grammage, the material being flexible along a plane defined by the at least one liner. | ||||||
116 | Laminated material and body wearable pouch formed therefrom | US10861560 | 2004-06-04 | US07819849B2 | 2010-10-26 | Lon E. Dircks; Michael Gerard Taylor; Claudio Giori |
A laminated material suitable for use in forming body wearable pouches is disclosed. The laminated material comprises three distinct layers including a fabric layer, a film layer and an adhesive layer therebetween. The adhesive layer substantially continuously bonds the fabric layer to the film layer. | ||||||
117 | Breathable warm-keeping fabric | US11272776 | 2005-11-15 | US20070111624A1 | 2007-05-17 | Chung-Hu Hsiao; Den-Yong Lin; Ching-Hsi Jen |
A breathable warm-keeping fabric, which includes a base layer prepared from cotton, nylon or polyester, a covering layer prepared from cotton, nylon or polyester, and an aluminum film layer, which is sandwiched between the base layer and the covering layer and prepared from an aluminum mixture, which contains a part of aluminum powder, a part of an assistant, and part of TPU (Thermoplastic Polyurethane), PU (Polyurethane), TPE (Thermoplastic Polyester Elastomer) or PE (Polyester). | ||||||
118 | Textile mat and cushion made thereof and a method of making a cushion | US10541537 | 2003-12-18 | US20060223404A1 | 2006-10-05 | Stig-Åke Gustafsson |
A textile mat, which is adapted to form a thermal comfort layer for a piece of seating or lying furniture and made of a moisture-permeable and a moisture-absorbing fibre layer, is made of biodegradable fibres only. Binder fibres are embedded in the moisture-absorbing fibre layer to keep it together and form an adhesive surface for keeping the two fibre layers together. A cushion is made of a textile body with a thermal and a biochemical comfort layer. The body is made in one piece of biodegradable fibres, the thermal comfort layer being formed of said textile mat and the biomechanical comfort layer being formed of a vertically pleated, set wadding. Biodegradable binder fibres are embedded in the wadding. In a method of making a cushion with a thermal and biomechanical comfort layer, a vertically pleated, set wadding is cut to a predetermined size. A textile mat is cut to the same size and placed on the wadding, whereupon the cut wadding and the cut textile mat are heated to a temperature at which the binder fibres melt, and are pressed together to the desired shape. | ||||||
119 | Laminated material and body wearable pouch formed therefrom | US10861560 | 2004-06-04 | US20050273064A1 | 2005-12-08 | Lon Dircks; Michael Taylor; Claudio Giori |
A laminated material suitable for use in forming body wearable pouches is disclosed. The laminated material comprises three distinct layers including a fabric layer, a film layer and an adhesive layer therebetween. The adhesive layer substantially continuously bonds the fabric layer to the film layer. | ||||||
120 | Multilayer structures | US10781269 | 2004-02-18 | US20050106965A1 | 2005-05-19 | Ronald Wevers; Karin Katzer; Antonio Batistini; Emil Hersche; Simon Waddington; Alastair Hill; Dave Kelley; Stan Ng; Simon Lee |
A multilayer structure comprising (A) a fabric and (B) a polymeric layer comprising a substantially random interpolymer comprising in polymerized form i) one or more α-olefin monomers and ii) one or more vinyl or vinylidene aromatic monomers and/or one or more sterically hindered aliphatic or cycloaliphatic vinyl or vinylidene monomers, and optionally iii) other polymerizable ethylenically unsaturated monomer(s); layer (B) being free from a substantial amount of tackifier. The multilayer structure has desirable haptics and surprisingly good drape properties. It is useful in many applications, for example as water-impermeable clothes, tablecloths, tents, water-impermeable covers, curtains, artificial leather or upholstery. |