| 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 | Covering for architectural surfaces and method of forming and applying same | US10541963 | 2004-01-13 | US20060048659A1 | 2006-03-09 | Wendell Colson; Daniel Fogarty; David Hartman |
| A covering for architectural surfaces as well as a method of forming and applying the covering is described in various embodiments and arrangements wherein fabric can be utilized and folded to provide a three-dimensional appearance with hollow or padded cells and wherein folds in the material used to make the covering or reveal strips conceal otherwise distractive seams between adjacent strips of the covering material. | ||||||
| 122 | Probe cleaning sheet and cleaning method | US11117343 | 2005-04-29 | US20050255796A1 | 2005-11-17 | Tsuyoshi Haga |
| A probe cleaning sheet is provided, which can be used not only at a room temperature and high temperature but also in a low temperature environment with sufficient cushioning property and which can softly and efficiently clean a probe tip end. Specifically, the cleaning sheet has a layered structure including an elastic layer below a polishing layer, for removing, by contact with the polishing layer, foreign matter adhered on a tip end of a probe for semiconductor inspection, and the elastic layer is a polytetrafluoro-ethylene porous body layer. | ||||||
| 123 | Laminate with a peelable top layer and method of peeling off the top layer from the laminate | US10885735 | 2004-07-08 | US20050003131A1 | 2005-01-06 | Hiroyuki Ishikawa; Sumiya Shimotsuma; Shinichiro Matsushita; Keiichi Hamada |
| A laminate with a peelable top layer is provided. The laminate comprises a substrate such as a porous board, the top layer such as a plastic top layer or a decorated metal plate, and a bonding layer between the top layer and the substrate. At least one of the substrate and the top layer is porous. An adhesive for forming the bonding layer comprises (A) an aqueous dispersion containing a polymer, which demonstrates properties that a dried film of the aqueous dispersion has a tensile strength of 1 to 28 MPa and a percentage elongation of 100 to 2000%, and (B) a water-based adhesive composition containing microspheres with thermal expansion capability, each of which is composed of a polymer shell encapsulating a gas. By use of this adhesive, the bonding layer provides a high bonding strength between the top layer and the substrate. When irradiating the laminate with ultraviolet or far infrared, while heating, the top layer can be easily peeled off from the laminate. | ||||||
| 124 | Cellular molded article in mold pattern having surface skin and producing method thereof | US10878252 | 2004-06-29 | US20040234708A1 | 2004-11-25 | Kiyoshi Matsuki; Kaoru Yaguchi |
| A cellular molded article in a mold pattern having the surface skin, which has an excellent releasing property from a metal mold as well as an excellent printing property of a design formed on a surface of metal mold, and a producing method thereof are provided. The cellular molded article in a mold pattern having the surface skin and a producing method thereof, in which, at least a face of surface skin material, which contacts with a metal mold, is an olefin thermoplastic elastomer sheet which is composed of an olefin resin without containing a polyethylene resin as its matrix, and pre-expanded beads, which are employed for an expansion molding in a mold pattern, are pre-expanded beads of an olefin resin. | ||||||
| 125 | Process for producing a multi-layered foam article and articles produced therefrom | US10172775 | 2002-06-14 | US20030098598A1 | 2003-05-29 | Steven English; Katherine J. Bladon; Jose Godoy; Alfredo B. Larre; Andrew M. Hogg |
| A process for producing a multi-layered article having a soft, leather-like feel comprising first introducing into a suitable mold a first liquid formulation designed to produce the top elastomeric layer on the finished article. A release agent is then applied on the elastomeric layer in the area where it is desired not to have adherence of the elastomer to the foam. Before the elastomeric layer is completely cured, a second liquid foam producing formulation, designed to produce a soft foam, is poured into the open mold. The elastomeric layer of the resulting article is integrally attached to the foam in the areas not containing the release agent. | ||||||
| 126 | Desiccant barrier container | US09945937 | 2001-09-04 | US20020006483A1 | 2002-01-17 | Joachim Gregor Neteler |
| A container for containing moisture sensitive items has at least one wall having a desiccating agent wherein the desiccating agent absorbs moisture so as to inhibit such moisture from contacting moisture sensitive items contained within the bag. The wall preferably has a durable outer layer, a moisture barrier intermediate layer, and a desiccant containing inner layer. The desiccant containing inner layer preferably comprises microporous polyolefin impregnated with silica. | ||||||
| 127 | Lamination of microcellular articles | US08919590 | 1997-07-24 | US06235380B1 | 2001-05-22 | Srinath P. Tupil; Klaus Büchner; Patrick M. Lahmann |
| Articles including material laminated to a surface of a microcellular substrate are disclosed, as well as methods of making these articles. Microcellular polymeric material in sheet form can be extruded and continuously fed from the extruded to a lamination system, or microcellular sheet can be produced and stored, and then fed into a lamination system. | ||||||
| 128 | Synthetic resin binder compositions from acrylic acid esters | US45014074 | 1974-03-11 | US3901843A | 1975-08-26 | FECHILLAS MICHAEL R |
| Synthetic resin binder compositions which comprise from about 10 to about 50 percent by weight of a polymodal molecular weight distribution synthetic acrylic ester resin in which (1) one mode or peak is present in the molecular weight range of from about 300 to about 2000 and another mode or peak is present in the molecular weight range of from about 4000 to about 600,000 and (2) from about 10 to about 40 percent by weight has a molecular weight in the range of from about 300 to about 2000 and from about 90 to about 60 percent by weight has a molecular weight in the range of from about 4000 to about 600,000 said polymodal molecular weight distribution synthetic acrylic ester resin having a swell index in tetrahydrofuran of from about 50 to about 200, from about 50 to about 90 percent by weight of insolubles in tetrahydrofuran, and a second order glass transition temperature of from about -40*C. to about +5*C.
|
||||||
| 129 | Protective containers and methods of making the same | US36216973 | 1973-05-21 | US3868056A | 1975-02-25 | KEREN EITAN |
| A cover sheet of paper or the like is laminated with a liner blanket of plastic material embodying closely spaced and hermetically sealed air cells. The composite sheet or mat is doubled upon either its longitudinal or its transverse center line to form a folder-shaped body with the cellular blanket inside. Two of the three open borders are heat sealed, hinged over upon and secured to the adjacent exterior surfaces of the body, thus completing a pressure cushioning and heat insulating container. The open border of the container is preferably crushed or compressed, to thin its walls for convenience in filling and subsequent closure.
|
||||||
| 130 | SENSING DEVICE | US15766438 | 2016-10-06 | US20180313778A1 | 2018-11-01 | Micheal James BANACH; Guillaume FICHET |
| A technique for producing a device for sensing a target species, comprising: providing first end second components, each comprising a support film, wherein at least one of said first and second components comprises at least one working electrode supported on the respective support film, at least one of said first and second components comprises at least one counter electrode supported on the respective support film, at least one of said first and second components defines a containing barrier supported on the respective support film, and at least one of said first and second components comprises an array of spacer structures supported on the respective support film; depositing a volume of liquid electrolyte on said first component; laminating said second component to said first component so as to spread said volume of liquid electrolyte out in a space created by said array of spacer structures within a liquid electrolyte area bounded by said containing barrier; wherein said liquid electrolyte functions to transport at least one electrochemical reaction product of an electrochemical reaction of the target species at the working electrode to the counter electrode for a counter electrochemical reaction at the counter electrode. | ||||||
| 131 | METHOD FOR MAKING A COMPOSITE MATERIAL | US15911843 | 2018-03-05 | US20180195219A1 | 2018-07-12 | Andrew D. MASCHINO; Michael Estel FISHER; John Richard RENNER; Todd R. SKOCHDOPOLE |
| A method for manufacturing a composite material includes forming a composite precursor material comprising a nonwoven layer comprising a plurality of fibers and a polymer film layer laminated to the nonwoven layer; forming a plurality of apertured extended cells in the polymer film layer, each of the apertured extended cells having a continuous sidewall extending away from the nonwoven layer that terminates in an aperture at a distal end; and, while forming the plurality of apertured extended cells, pushing, with a fluid, at least one of the fibers into at least one of the apertured extended cells so that a portion of the at least one of the fibers extends into the at least one of the apertured extended cells and through the aperture at the distal end. | ||||||
| 132 | Fuel containment autonomous self-sealing system | US15705951 | 2017-09-15 | US10005253B1 | 2018-06-26 | Harry R Luzetsky; Kyle Bates |
| A seal-healing material that is used to form fuel tanks and other fuel containing items uses a pair of reagents disposed within multiple individual cells on either side of a polymer film with other polymer films forming the outer boundaries of each set of cells. The reagents, when mixed, chemically react to form a sealant. An elastomeric sheet is bound to each polymer film such that a fibrous material is disposed between each polymeric film and elastomeric film. | ||||||
| 133 | Composite material and method for making same | US15619005 | 2017-06-09 | US09945055B2 | 2018-04-17 | Andrew D. Maschino; Michael Estel Fisher; John Richard Renner; Todd R. Skochdopole |
| A composite material includes a nonwoven layer having a plurality of fibers and a polymer film layer with a plurality of extended cells. Each of the extended cells are contemplated to include continuous sidewalls extending away from the nonwoven layer. At least one of the fibers extends into one or more of the extended cells. | ||||||
| 134 | HYDROFORMED EXPANDED SPUN BONDED NONWOVEN WEB AND METHOD FOR MAKING SAME | US15833363 | 2017-12-06 | US20180094370A1 | 2018-04-05 | Andrew D. MASCHINO; Michael Estel FISHER; John Richard RENNER; Todd R. SKOCHDOPOLE |
| A method for hydroforming a spun bonded nonwoven web includes applying a plurality of pressurized liquid jets onto an original unexpanded spun bonded nonwoven web having an original loft while the web passes over a forming structure. A plurality of spun bonded fibers in the original unexpanded spun bonded nonwoven web are reoriented from a closely packed substantially horizontal orientation to a more loosely packed orientation with greater vertical spacing between the fibers to produce a hydroformed expanded spun bonded nonwoven web having a loft of at least about 1.3 times greater than the original loft of the original unexpanded spun bonded nonwoven web, and an air permeability of at least about 1.2 times greater than an original air permeability of the original unexpanded spun bonded nonwoven web. The hydroformed expanded spun bonded nonwoven web has a surface with a plurality of protuberances in a pattern corresponding to the pattern of apertures in the forming structure. | ||||||
| 135 | METHOD OF MAKING A HYDROFORMED COMPOSITE MATERIAL | US15797305 | 2017-10-30 | US20180044826A1 | 2018-02-15 | Andrew D. MASCHINO; Michael Estel FISHER; John Richard RENNER; Todd R. SKOCHDOPOLE |
| A method for hydroforming a composite precursor material includes forming a composite precursor material comprising an original spun bonded nonwoven web and a polymer film layer. The method also includes applying a plurality of pressurized liquid jets onto an outer surface of the original spun bonded nonwoven web while the composite precursor material passes over a forming structure to push and reorient a plurality of spun bonded fibers from a closely packed substantially horizontal orientation to a more loosely packed orientation with greater vertical spacing between the fibers to produce a hydroformed composite material comprising an expanded spun bonded nonwoven layer having a loft of at least about 1.3 times greater than the original loft of the original spun bonded nonwoven web, and an air permeability of at least about 1.2 times greater than an original air permeability of the original unexpanded spun bonded nonwoven web. | ||||||
| 136 | Hydroformed expanded spun bonded nonwoven web and method for making same | US15248762 | 2016-08-26 | US09856589B1 | 2018-01-02 | Andrew D. Maschino; Michael Estel Fisher; John Richard Renner; Todd R. Skochdopole |
| A hydroformed expanded spun bonded nonwoven web has a first substantially planar surface on one side thereof and a second surface on an opposite side thereof. The second surface includes a plurality of protuberances in a pattern. The hydroformed expanded spun bonded web has an average loft of at least about 1.3 times greater than an original average loft of an original unexpanded spun bonded nonwoven web from which the hydroformed expanded spun bonded nonwoven web was created, and an air permeability of at least about 1.2 times greater than an original air permeability of the original unexpanded spun bonded nonwoven web. | ||||||
| 137 | COMPOSITE MATERIAL AND METHOD FOR MAKING SAME | US15619005 | 2017-06-09 | US20170356108A1 | 2017-12-14 | Andrew D. MASCHINO; Michael Estel FISHER; John Richard RENNER; Todd R. SKOCHDOPOLE |
| A composite material includes a nonwoven layer having a plurality of fibers and a polymer film layer with a plurality of extended cells. Each of the extended cells are contemplated to include continuous sidewalls extending away from the nonwoven layer. At least one of the fibers extends into one or more of the extended cells. | ||||||
| 138 | Attachment tags | US14422116 | 2013-08-29 | US09815595B2 | 2017-11-14 | Colin M. O'Donnell; Curtis J. Heinrichs; Jeffrey Tschetter; Mike Schultz; David Schiller |
| An attachment tag that includes a tag portion having a first surface and a second surface, and an adhesive layer disposed on the second surface of the tag portion and configured to adhere to a product. The attachment tag also includes an elastomer portion having an expandable portion configured to further secure the attachment tag to the product and/or to secure the attachment tag to a second product, and a layer portion that is co-extensive with the expandable portion, and includes a bond zone that is bonded to the tag portion. | ||||||
| 139 | LIGHT WEIGHT COMPONENT WITH ACOUSTIC ATTENUATION AND METHOD OF MAKING | US15096619 | 2016-04-12 | US20170292452A1 | 2017-10-12 | Gary D. Roberge |
| A method of making a light weight component is provided. The method including the steps of: forming a metallic foam core into a desired configuration; applying an external metallic shell to an exterior surface of the metallic foam core after it has been formed into the desired configuration; and attenuating the component to a desired frequency by forming a plurality of openings in the external metallic shell. | ||||||
| 140 | ACOUSTIC PANEL FOR AIRCRAFT NACELLE, AND METHOD OF MANUFACTURING THE ACOUSTIC PANEL | US15468404 | 2017-03-24 | US20170283082A1 | 2017-10-05 | Florian Ravise; Hassan Menay |
| An acoustic panel for an aircraft nacelle includes a cellular layer configured to trap noise, a backplate fixed to one surface of the cellular layer and a facesheet fixed to another, opposite, surface of the cellular layer. The facesheet includes a layer of a preimpregnated woven material containing weft yarns spaced apart from one another and warp yarns spaced apart from one another so that the facesheet exhibits openings between the yarns. | ||||||
QQ群二维码
意见反馈
意见反馈