| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | LINING TUBE FOR THE RENOVATION OF FLUID-CONDUCTING SYSTEMS | US15535653 | 2015-12-15 | US20180142828A1 | 2018-05-24 | Stefan REICHEL; Christian NOLL |
| Lining hose for the renovation of fluid carrying pipe systems comprising at least one resin impregnated fiber hose and, optionally, a reinforced or unreinforced inner tubular foil hose on the side of the resin impregnated fiber hose oriented towards the flowing medium, wherein nanoparticles are added to the resin used for impregnation or to the inner tubular foil hose or to both. | ||||||
| 22 | Reinforcing method and reinforcing structure for steel structure and elastic layer forming material for reinforcing steel structure | US14539037 | 2014-11-12 | US09682535B2 | 2017-06-20 | Atsuya Komori; Akira Kobayashi; Yuya Hidekuma; Kazuo Ohgaki |
| A reinforcing method and structure for a steel structure and an elastic layer forming material for reinforcing a steel structure are provided that can prevent a reinforcing effect from being lowered by direct sunlight, can obtain a sufficient reinforcing effect, and can prevent a fiber sheet from being peeled away from a steel structure surface before the fiber sheet is torn. The reinforcing method for a steel structure, in which a fiber sheet including reinforcing fibers is bonded to a surface of the steel structure to integrate the fiber sheet with the steel structure, includes (a) a step of applying and hardening a polyurea resin putty to the surface of the steel structure to form an elastic layer, and (b) a step of bonding the fiber sheet to the surface of the steel structure having the elastic layer formed thereon with an adhesive agent. | ||||||
| 23 | HONEYCOMB SANDWICH PANEL PAINT READY SURFACE | US14631790 | 2015-02-25 | US20150239226A1 | 2015-08-27 | George T. Franck, III; Alvin S. Bartolome; Patrick G. Jarvis-Shean |
| A method for curing a composite panel, including the steps of inserting a Biaxially Oriented Polypropylene release film into a mold, and curing the panel using a cold-in/cold-out process at a lowermost temperature within the panel's temperature curing range. The process further includes the use of a twice smoothed caul sheet, where the smoothing includes a coarse sanding and a fine sanding. | ||||||
| 24 | Reinforcing method and reinforcing structure for steel structure and elastic layer forming material for reinforcing steel structure | US13818846 | 2011-08-29 | US09079379B2 | 2015-07-14 | Atsuya Komori; Akira Kobayashi; Yuya Hidekuma; Kazuo Ohgaki |
| A reinforcing method and structure for a steel structure and an elastic layer forming material for reinforcing a steel structure are provided that can prevent a reinforcing effect from being lowered by direct sunlight, can obtain a sufficient reinforcing effect, and can prevent a fiber sheet from being peeled away from a steel structure surface before the fiber sheet is torn. The reinforcing method for a steel structure, in which a fiber sheet including reinforcing fibers is bonded to a surface of the steel structure to integrate the fiber sheet with the steel structure, includes (a) a step of applying and hardening a polyurea resin putty to the surface of the steel structure to form an elastic layer, and (b) a step of bonding the fiber sheet to the surface of the steel structure having the elastic layer formed thereon with an adhesive agent. | ||||||
| 25 | Storage vessel for compressed fluids | US13791065 | 2013-03-08 | US08844760B2 | 2014-09-30 | Hugh L. Horstman |
| A vessel for storing pressurized gas. The storage vessel may be manufactured in a variety of predetermined shapes. Plural frame members are interconnected with each other, collectively forming a lattice frame. A network of internal supports is disposed within the interior of the lattice frame, the internal supports being made of a carbon-reinforced composite material. The storage vessel has an outer shell made up of layers of carbon-reinforced composite material sheets enveloping the exterior of the lattice frame. | ||||||
| 26 | Helmets for protection against rifle bullets | US12004327 | 2007-12-20 | US20100275337A1 | 2010-11-04 | Ashok Bhatnagar; Bradley L. Grunden; Brian D. Arvidson; Lori L. Wagner |
| A helmet shell is formed having an outer section of fibrous layers, a middle section of fibrous layers and an inner section of fibrous layers. The outer section layers contain high tenacity abrasive fibers in a resin matrix. The middle section layers contain high strength polyolefin fibers and are in the form of woven or knitted fabrics with a resin matrix. The inner section layers contain high strength polyolefin fibers and are in the form of non-woven fabrics with a resin matrix. The helmet is lightweight and resists penetration of rifle bullets. | ||||||
| 27 | Adhesive composition for the direct joining of a pre-gelled polyester or vinyl ester to raw rubber | US11167988 | 2005-06-27 | US07473472B2 | 2009-01-06 | Philippe Chenaux; Antonio Delfino |
| A sulfur-crosslinkable adhesive composition of the non-aqueous type, that is to say not requiring the presence of water, usable for direct bonding of a pregelled polyester or vinyl ester composite to rubber in the uncured state. The composition comprises polyvinylpyridine-styrene-butadiene elastomer (“p-VSBR”) in combination with a polyester or vinyl ester resin. Preferably, the resin used is a novolak and/or bisphenol based resin of the epoxy vinyl ester type. This composition, unlike conventional RFL adhesives, does not require any activation treatment, such as intermediate drying, at the time of use. A process for preparing such an adhesive composition, use of said composition for the manufacture of laminated composite parts. | ||||||
| 28 | Heat sealable compositions and uses thereof | US10681470 | 2003-10-08 | US20040112533A1 | 2004-06-17 | Linda Maria Gisele Robert Va den Bossche; Kenneth Lewtas; Quoc Luvinh |
| Ethylene unsaturated ester copolymers combined with a resin are disclosed for use in the sealing layers of laminates and films. | ||||||
| 29 | Method of making a sheet of building material | US10262853 | 2002-10-02 | US20030057594A1 | 2003-03-27 | Robert Phillip Anderson; Kimberly Ann Whitley; Louis Paul Schaefer |
| A method of making a sheet of building material. The method includes: providing a molding surface; providing a composition comprising vinyl ester resin in combination with polyester resin, an optional monomer, a thickening agent, an accelerator, and a filler; depositing the composition on the molding surface; and curing the composition to form the sheet of building material. Another aspect of the invention is the sheet of building material. Another aspect of the invention is a method of making a laminate. | ||||||
| 30 | Holographic transfer lamination materials and process | US46463 | 1993-04-07 | US5360501A | 1994-11-01 | L. Gordon Bolt |
| Disclosed is a process for configuring a hologram (30) onto a final laminate (38) incorporating the hologram (30), including a car windshield or an aircraft canopy. The process includes first developing the hologram (30) on a process substrate (22). Intermediate the hologram (30) and the process substrate (22) is a thermoplastic layer (24). After the hologram (30) has been developed, the hologram laminate (20) including the process substrate (22), thermoplastic layer (24), and hologram (30) is applied to a first final laminate layer (34) by means of an adhesive (32) such that the hologram (30) is facing the first final laminate layer (34). Once this step is completed heat is applied to the hologram laminate (20) to melt the thermoplastic layer (24), thus removing the process substrate (22). Therefore, a second final laminate layer (40) can be applied to the opposite side of the hologram (30) without any drawbacks from the thickness of any additional support layers in the final laminate (38). | ||||||
| 31 | 라이플총 탄환에 대한 보호용 헬멧 | KR1020107015686 | 2008-12-09 | KR1020100101662A | 2010-09-17 | 베트네이거,애쇼크; 그런든,브레들리,엘.; 알비즌,브라이언,디.; 와그너,로리,엘. |
| 헬멧 쉘은 섬유 층의 외부섹션, 섬유 층의 중간섹션 및 섬유 층의 내부 섹션을 갖도록 형성된다. 상기 외부 섹션은 수지 매트릭스 내에 고인성 연마용 섬유를 함유한다. 상기 중간 섹션 층은 고인성 폴리올레핀 섬유를 함유하며, 수지 매트릭스와 제직 또는 편직 패브릭의 형태로 존재한다. 상기 내부 섹션 층은 고강도 폴리올레핀 섬유를 함유하며, 수지 매트릭스와 부직 패브릭의 형태로 존재한다. 상기 헬멧은 경량이고, 라이플총 탄환의 관통을 저지한다. | ||||||
| 32 | Storage vessel for compressed fluids | US14469831 | 2014-08-27 | US09981461B1 | 2018-05-29 | Hugh L. Horstman |
| A vessel for storing pressurized gas. The storage vessel may be manufactured in a variety of predetermined shapes. Plural frame members are interconnected with each other, collectively forming a lattice frame. A network of internal supports is disposed within the interior of the lattice frame, the internal supports being made of a carbon-reinforced composite material. The storage vessel has an outer shell made up of layers of carbon-reinforced composite material sheets enveloping the exterior of the lattice frame. | ||||||
| 33 | REPAIR APPARATUS AND METHOD FOR COMPOSITE PANELS HAVING A CONDUCTIVE LAYER | US15273359 | 2016-09-22 | US20170008268A1 | 2017-01-12 | Patrice K. Ackerman; Weston K. Anderson; Russell J. Heeter |
| A repair apparatus for an electrically conductive layer of a composite structure includes a dielectric layer, having a perimeter, secured to the composite structure, a first adhesive layer, and a conductive layer, secured over the dielectric layer and to the composite structure via the first adhesive layer around an entirety of the perimeter of the dielectric layer, the first adhesive layer being scored along a perimeter region thereof to improve a conductive path between the conductive layer and the composite structure. | ||||||
| 34 | Broadband reflectors, concentrated solar power systems, and methods of using the same | US13142910 | 2009-12-21 | US09523516B2 | 2016-12-20 | Timothy J. Hebrink; Susannah C. Clear; Laurence R. Gilbert; Michael F. Weber; Ta-Hua Yu; Daniel Ting-Yuan Chen; Audrey A. Sherman |
| Broadband reflectors include a UV-reflective multilayer optical film and a VIS/IR-reflective layer. In various embodiments, the VIS/IR reflective layer may be a reflective metal layer or a multilayer optical film. Concentrated solar power systems and methods of harnessing solar energy using the broadband reflectors and optionally comprising a celestial tracking mechanism are also disclosed. | ||||||
| 35 | Repair apparatus and method for composite panels having a conductive layer | US14199615 | 2014-03-06 | US09481157B2 | 2016-11-01 | Patrice K Ackerman; Weston K Anderson; Russell J Heeter |
| A repair apparatus for an electrically conductive layer of a composite structure includes a dielectric layer, having a perimeter, secured to the structure, and a conductive layer, secured over the dielectric layer and to the structure around an entirety of the perimeter of the dielectric layer, the conductive layer being treated along a perimeter region thereof to improve a conductive path between the conductive layer and the structure. | ||||||
| 36 | METHOD OF MANUFACTURING ANTI-SLIPPING PAD | US14525922 | 2014-10-28 | US20160114569A1 | 2016-04-28 | Su-Tuan Hsu Tang |
| In a method of manufacturing an anti-slipping pad, a braid mainly serves as a central main structure. A shaped underlying layer serving as a base, and a soft paste-like foaming paste of a surface layer, which is not shaped, are fused by high temperature into an integrally covered sandwich structure. The method comprises the steps of: leveling baking, laminating transporting, showering foaming, foaming shaping and cooling completing so that the braid is clamped between the foaming shaped foaming paste and the underlying layer to strengthen the overall anti-slipping pad structure and to help the process advancing and property enhancing of the products, such as cabinet pads, place mats and the like. | ||||||
| 37 | Surface composition and method of application | US13202184 | 2010-02-23 | US09322189B2 | 2016-04-26 | Lew Beale |
| There is provided a surface composition for reducing degradation and fading of surfaces subjected to extended periods of submersion in an aqueous liquid. The surface composition comprises at least one clear barrier layer and at least one under layer, wherein the clear barrier layer is in use, disposed atop the under layer and in contact with the aqueous liquid whereby the clear barrier layer protects the structure and appearance of the under layer. The surface composition is particularly useful in applications where the surface is subjected to extended periods of submersion in liquids containing hydrolyzing or oxidizing agents, exposure to ultra violet radiation, or combinations thereof, whereby the clear barrier layer provides structural protection against degradation from chemical attack and from fading due to UV exposure. There is also provided a method of manufacturing a boat or other watercraft surface composition. | ||||||
| 38 | LAMINATE MATERIAL | US14394901 | 2013-04-16 | US20150079368A1 | 2015-03-19 | Nobuyuki Koike; Takashi Hanne; Yasuyuki Matsushima; Shino Mizuno |
| An object of the present invention is to provide a laminate material for a transparent substrate material or protecting material, which exhibits excellent surface hardness, excellent form stability under heat or when absorbing water, and excellent adhesion to a coating composition, and excellent heat resistance under load, and which maintains excellent adhesion between the layers. The present invention is a laminate material comprising a first layer comprising a vinyl copolymer resin (A), and a second layer comprising a thermoplastic resin (B) stacked on the first layer, or comprising the first layer, the second layer, and a third layer comprising the vinyl copolymer resin (A) stacked on the second layer (the vinyl copolymer resin (A) constituting the first layer and the vinyl copolymer resin (A) constituting the third layer may be the same or different). | ||||||
| 39 | HELMETS FOR PROTECTION AGAINST RIFLE BULLETS | US14505556 | 2014-10-03 | US20150020283A1 | 2015-01-22 | ASHOK BHATNAGAR; BRADLEY L. GRUNDEN; BRIAN D. ARVIDSON; LORI L. WAGNER |
| A helmet shell is formed having an outer section of fibrous layers, a middle section of fibrous layers and an inner section of fibrous layers. The outer section layers contain high tenacity abrasive fibers in a resin matrix. The middle section layers contain high strength polyolefin fibers and are in the form of woven or knitted fabrics with a resin matrix. The inner section layers contain high strength polyolefin fibers and are in the form of non-woven fabrics with a resin matrix. The helmet is lightweight and resists penetration of rifle bullets. | ||||||
| 40 | BROADBAND REFLECTORS, CONCENTRATED SOLAR POWER SYSTEMS, AND METHODS OF USING THE SAME | US13142910 | 2009-12-21 | US20120011850A1 | 2012-01-19 | Timothy J. Hebrink; Susannah C. Clear; Laurence R. Gilbert; Michael F. Weber; Ta-Hua Yu; Audrey A. Sherman |
| Broadband reflectors include a UV-reflective multilayer optical film and a VIS/IR-reflective layer. In various embodiments, the VIS/IR reflective layer may be a reflective metal layer or a multilayer optical film. Concentrated solar power systems and methods of harnessing solar energy using the broadband reflectors and optionally comprising a celestial tracking mechanism are also disclosed | ||||||
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