子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | PROCESS FOR THE MANUFACTURING OF SURFACE ELEMENTS | US15195832 | 2016-06-28 | US20160303868A1 | 2016-10-20 | Krister HANSSON; Johan LUNDGREN; Hakan WERNERSSON |
| Processes for manufacturing surface elements are disclosed. The surface elements can comprise a decorative upper layer and a supporting core. Processes for manufacturing such surface elements can comprise obtaining a decor at least by digitization of a number of archetypes selected from woods and minerals by making a high resolution digital picture of said archetypes, storing said decor digitally, manufacturing a plurality of supporting cores, each being of rectangular shape and each having a size essentially equaling only one desired end user format and provided with an upper side and a lower side, editing said decor to fit said shape and size of each one of said plurality of supporting cores, and digitally applying different patterns on each of said plurality of supporting cores, wherein said patterns are selected and parted from said decor and said decor is used to control said digitally applying the different patterns. | ||||||
| 122 | INTERSCALAR INTEGUMENT POSITION SETTING METHOD AND MANUFACTURE | US15094581 | 2016-04-08 | US20160298202A1 | 2016-10-13 | Mark Tovar |
| A method is disclosed for setting the interscalar integument of a reptile shed for incorporation into a laminar composite. The method includes saturating the reptile shed in a saturating liquid, positioning the saturated reptile shed on a lower platen of a press, lowering an upper platen of the press to contact the saturated reptile shed, flash drying the saturated reptile shed by simultaneously applying heat and pressure using the upper and lower platens for a fixed period of time. | ||||||
| 123 | THERMOSETTING BAMBOO SAND COMPOSITE PRESSURE PIPE | US15032264 | 2014-11-04 | US20160245429A1 | 2016-08-25 | Xin ZHU; Ling YE; Huiqing YANG |
| A thermosetting bamboo sand composite pressure pipe comprises a inner liner layer (1), an inner reinforcement layer (2), a sand adhesive layer (3), an outer reinforcement layer (4) and an outer protection layer (5) arranged respectively from an inside to an outside in a radial direction thereof. The inner reinforcement layer (2) formed by winding bamboo, a thickening layer (3) formed by stirred ore and adhesive, and the outer reinforcement layer (4) formed by winding bamboo are arranged sequentially from an inside to an outside between the inner liner layer (1) and the outer protection layer (5). The composite pressure pipe is energy-saving and environmental-friendly, raw production materials are recyclable, and a price is low. | ||||||
| 124 | COMPOSITE SHEET MATERIAL AND METHOD FOR FORMING THE SAME | US15095944 | 2016-04-11 | US20160221311A1 | 2016-08-04 | Martin Weinberg; James Yuan; Robert Markowski |
| A composite sheet material and method for forming the same is provided that includes a substrate, a matrix, and a cover sheet. The substrate has a first face surface, a second face surface, and a plurality of edges, and includes a thermoplastic material. The matrix is attached to the substrate. The matrix includes a support component having a first melting point, and a thermoplastic component having a second melting point. The second melting point is less than the first melting point. The cover sheet imparts one or more surface characteristics to the composite sheet material during thermo-pressure formation of the composite sheet material. | ||||||
| 125 | STRUCTURAL SANDWICH ELEMENT AND METHOD FOR PRODUCING SAME | US14897073 | 2014-06-04 | US20160123008A1 | 2016-05-05 | Fredy Iseli |
| A structural sandwich element, especially wall element, comprising at least one cellulose honeycomb core having a plurality of juxtaposed channels, the honeycomb core being accommodated between a first and a second cover layer. The first and/or the second cover layer is/are a concrete cover layer, especially from high-performance concrete, or a gypsum cover layer. | ||||||
| 126 | Process for the manufacturing of surface elements | US14531626 | 2014-11-03 | US09321299B2 | 2016-04-26 | Krister Hansson; Johan Lundgren; Hakan Wernersson |
| A process for the manufacturing of surface elements is provided herein. The surface elements can include a decorative upper layer and a supporting core. A supporting core with a desired format can be manufactured by press molding and provided with an upper side and a lower side. The upper side of the supporting core can be provided with a structure by a momentary pressing operation using a surface structured matrix. A ground coating can be provided on the structured upper side of the supporting core. A digitally printed decor comprising inks of at least four colors can be applied directly on top of the ground coating by an ink-jet type printer. The structure of the supporting core can enhance the realism of the decor, wherein the decor can be selected from the group consisting of woods and minerals. | ||||||
| 127 | Carbon nanotube composite film and method for making the same | US13862737 | 2013-04-15 | US09299478B2 | 2016-03-29 | Chen Feng; Yu-Quan Wang; Li Qian |
| A carbon nanotube composite film includes a treated patterned carbon nanotube film and a polymer film having the treated patterned carbon nanotube film located therein. The treated patterned carbon nanotube film includes carbon nanotube linear units spaced from each other and carbon nanotube groups spaced from each other and combined with the carbon nanotube linear units. A method for making the carbon nanotube composite film is also disclosed. | ||||||
| 128 | COMPOSITE SHEET MATERIAL AND METHOD FOR FORMING THE SAME | US14920627 | 2015-10-22 | US20160039176A1 | 2016-02-11 | Martin Weinberg; James Yuan; Robert Markowski |
| A composite sheet material and method for forming the same is provided that includes a substrate, a matrix, and a cover sheet. The substrate has a first face surface, a second face surface, and a plurality of edges, and includes a thermoplastic material. The matrix is attached to the substrate. The matrix includes a support component having a first melting point, and a thermoplastic component having a second melting point. The second melting point is less than the first melting point. The cover sheet imparts one or more surface characteristics to the composite sheet material during thermo-pressure formation of the composite sheet material. | ||||||
| 129 | GYPSUM PRODUCTS WITH FORTIFIED GLASS FIBER MAT | US14306859 | 2014-06-17 | US20150360439A1 | 2015-12-17 | Alfred Li; Naser Aldabaibeh |
| A gypsum product with a fortified glass fiber mat is provided in which the glass fiber mat is strengthened by crystallization of salt crystals on the glass fiber mat prior to the glass fiber mat use in the gypsum product. Methods for making a glass fiber mat saturated with salt crystals and gypsum products with the glass fiber mats are provided as well. | ||||||
| 130 | Composite sheet material and method for forming the same | US14266441 | 2014-04-30 | US09138975B2 | 2015-09-22 | Martin Weinberg; James Yuan; Robert Markowski |
| A composite sheet material and method for forming the same is provided that includes a substrate, a matrix, and a cover sheet. The substrate has a first face surface, a second face surface, and a plurality of edges, and includes a thermoplastic material. The matrix is attached to the substrate. The matrix includes a support component having a first melting point, and a thermoplastic component having a second melting point. The second melting point is less than the first melting point. The cover sheet imparts one or more surface characteristics to the composite sheet material during thermo-pressure formation of the composite sheet material. | ||||||
| 131 | Composite sheet material and method for forming the same | US14266428 | 2014-04-30 | US09138974B2 | 2015-09-22 | Martin Weinberg; James Yuan; Robert Markowski |
| A composite sheet material and method for forming the same is provided that includes a substrate, a matrix, and a cover sheet. The substrate has a first face surface, a second face surface, and a plurality of edges, and includes a thermoplastic material. The matrix is attached to the substrate. The matrix includes a support component having a first melting point, and a thermoplastic component having a second melting point. The second melting point is less than the first melting point. The cover sheet imparts one or more surface characteristics to the composite sheet material during thermo-pressure formation of the composite sheet material. | ||||||
| 132 | PROCESS FOR THE MANUFACTURING OF SURFACE ELEMENTS | US14531626 | 2014-11-03 | US20150158328A1 | 2015-06-11 | Krister Hansson; Johan Lundgren; Hakan Wernersson |
| A process for the manufacturing of surface elements is provided herein. The surface elements can include a decorative upper layer and a supporting core. A supporting core with a desired format can be manufactured by press molding and provided with an upper side and a lower side. The upper side of the supporting core can be provided with a structure by a momentary pressing operation using a surface structured matrix. A ground coating can be provided on the structured upper side of the supporting core. A digitally printed decor comprising inks of at least four colors can be applied directly on top of the ground coating by an ink-jet type printer. The structure of the supporting core can enhance the realism of the decor, wherein the decor can be selected from the group consisting of woods and minerals. | ||||||
| 133 | Cork watersports board | US13754794 | 2013-01-30 | US09045201B1 | 2015-06-02 | Tadas Kuzmarskis; Pieter Daniel Kalkman |
| A watersports board is disclosed comprising: at least one non-cork layer; and at least one cork layer. Preferably, the watersports board further comprises a hollow core. More preferably, the watersports board comprises: a multiplicity of non-cork layers; and a multiplicity of cork layers; wherein said cork and non-cork layers are arranged alternately. | ||||||
| 134 | COMPOSITE SHEET MATERIAL AND METHOD FOR FORMING THE SAME | US14266428 | 2014-04-30 | US20140230999A1 | 2014-08-21 | Martin Weinberg; James Yuan; Robert Markowski |
| A composite sheet material and method for forming the same is provided that includes a substrate, a matrix, and a cover sheet. The substrate has a first face surface, a second face surface, and a plurality of edges, and includes a thermoplastic material. The matrix is attached to the substrate. The matrix includes a support component having a first melting point, and a thermoplastic component having a second melting point. The second melting point is less than the first melting point. The cover sheet imparts one or more surface characteristics to the composite sheet material during thermo-pressure formation of the composite sheet material. | ||||||
| 135 | COMPOSITE FOR ON DEMAND FRAGRANCE DELIVERY AND RELATED METHOD OF MANUFACTURE | US13022603 | 2011-02-07 | US20110194983A1 | 2011-08-11 | Christopher GOUGH; Margaret Hyde; Timothy Thomson |
| A composite for on demand release of fragrance, comprising a foam layer imbibed with fragrance; a top polymer layer, impermeable to said fragrance but containing perforations; and a bottom double sided film adhesive layer with a releaser liner on the outside surface; such that said foam layer is in between said top and bottom layer and when compressed by a user said fragrance is released thru the perforations in said top layer. Related method of manufacture and use of the composites in a book are also provided. | ||||||
| 136 | EPOXY RESIN COMPOSITION, PREPREG, CURED BODY, SHEET-LIKE MOLDED BODY, LAMINATE AND MULTILAYER LAMINATE | US13056392 | 2009-07-29 | US20110189432A1 | 2011-08-04 | Nobuhiro Goto; Masaru Heishi; Hidenobu Deguchi; Takayuki Kobayashi; Junnosuke Murakami |
| Provided is an epoxy resin composition capable of reducing the surface roughness of the surface of a roughening-treated cured body.The epoxy resin composition includes an epoxy resin, a curing agent, and a silica component obtained by performing a surface treatment on silica particles using a silane coupling agent; and the epoxy resin composition does not include a curing accelerator, or includes a curing accelerator at a content equal to or less than 3.5 parts by weight to a total of 100 parts by weight of the epoxy resin and the curing agent. Mean particle diameter of the silica particles is equal to or less than 1 μm. An amount B (g) of the silane coupling agent used for surface treatment, per 1 g of the silica particles in the silica component, is within a range between 10% to 80% with regard to a value C (g) per 1 g of the silica particles, which is calculated by the following formula (X). C (g)/1 g of Silica Particles=[Specific Surface Area of Silica Particles (m2/g)/Minimum Area Coated by Silane Coupling Agent (m2/g)] Formula (X) | ||||||
| 137 | MOLDING ARTICLE WITH REINFORCED PASSAGES | US12618595 | 2009-11-13 | US20100055410A1 | 2010-03-04 | Michael Kramer; Kent Sherwood |
| An article (10) such as a grid fin that controls the direction of flight of a vehicle, has precisely formed passages (14) with porous locating walls (52A, 52B) and a layer of fibrous material (86) such as graphite cloth lying against one or both opposite sides of the locating wall, and with the locating wall and fibrous material impregnated with resin (84). Locating blocks (30) of foam are molded and the fibrous material (42) is wrapped around each block. The wrapped blocks (44) are each inserted into a passage (54) of a locating grid (50), so the fibrous material is compressed. The locating grid lies in a grid-holding mold (60). With the fiber-wrapped blocks inserted, the grid-holding mold is closed and resin is injected into the mold and allowed to harden. The foam blocks are removed by eroding them, as by sand blasting them, to leave a final article. | ||||||
| 138 | PANEL CONTAINING HIGHLY-CUTINIZED BAMBOO FLAKES | US12259780 | 2008-10-28 | US20090075021A1 | 2009-03-19 | Nian-hua OU |
| A wood composite panel includes bamboo strands cut from the outer cutinized portion of a bamboo culm and bound together with an isocyanate binder resin. | ||||||
| 139 | Steel plate reinforcing sheet | US11600148 | 2006-11-16 | US07390759B2 | 2008-06-24 | Yasuhiko Kawaguchi; Katsuhiko Tachibana |
| The invention provides a steel plate reinforcing sheet having light weight and thin layer, providing sufficient adhesion and reinforcing effect to a steel plate, and having excellent workability. In the steel plate reinforcing sheet comprising a restricting layer and a resin layer, a curing composition is first prepared by mixing rubber components comprising diene-based rubber and rubber having a vinyl group in its side chain, with a cross-linking agent capable of reacting with these rubber components, and then by kneading the mixture. Thereafter, the curing composition thus prepared is rolled by molding, to form a resin layer. Then, the resin layer thus formed is adhesively bonded to the restricting layer, to produce a steel plate reinforcing sheet. | ||||||
| 140 | TILE ASSEMBLY SYSTEM | US11676083 | 2007-02-16 | US20070193133A1 | 2007-08-23 | William Krupnick |
| The present invention provides a tile panel unit having a tile cap composed of at least one layer of crushed stone mixed with a resin and a catalyst and at least one layer of fiberglass strands mixed with a resin, and a base plate at least partially embedded in at least one layer of the tile cap material. The base plate provides a structure for supporting the tile cap, the structure having a matrix of supporting shapes and other reinforcing elements arranged within a peripheral support structure. The base plate further provides mounting features for securing the tile panel unit to an underlying support structure, and interlocking features for aligning and securing adjacent tile panel units in a wall and floor covering tile assembly system. | ||||||
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