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 |
|---|---|---|---|---|---|---|
| 181 | MULTILAYER FILM STRUCTURES COMPRISING BIO-BASED MATERIALS | US12167036 | 2008-07-02 | US20090017240A1 | 2009-01-15 | Lucie Charbonnel; Karlheinz Hausmann; I-Hwa Lee; Cedric Thomi |
| A multilayer film structure is disclosed which comprises at least a first layer made of a bio-based polymer composition; a tie layer comprising one or more ethylene copolymers and one or more inorganic fillers; and optionally at least one additional layer. | ||||||
| 182 | Unbonded system for strength testing of concrete masonry units | US10712943 | 2003-11-13 | US07415890B2 | 2008-08-26 | Gary Workman |
| An unbonded capping system for strength testing of concrete masonry units (CMUs) comprises a rigid, rectangular foam board of a size to be received on a face of a CMU. A plastic sheet is laminated to the rigid foam board and is engagable by a test apparatus, in use, with the rigid foam board engaging the face of the CMU to provide even load distribution during testing. | ||||||
| 183 | Seal Stock Laminate | US11911532 | 2006-04-12 | US20080169286A1 | 2008-07-17 | Andrew Fenwick McLean; David John O'Brien; Victor Sachs; Craig Warren Thornhill |
| A method for producing a primary laminate including a tabstock the steps of; feeding a seal laminate comprising bottom food contact layers including a foil layer and a top polyester layer to a laminating station wherein either the foil layer or the underside of the polyester layer has been printed; simultaneously feeding a tabstock, which is narrower than the seal laminate, to the laminating station such that the bottom of the tabstock and the top polyester layer of the seal laminate come into contact to form a primary substrate, the top face of which is partly comprised of the top face of the tabstock and partly comprised of the top polyester layer of the heat sealable laminate, prior to reaching the laminating station; simultaneously feeding a plastic film stock which has top and bottom surfaces to the laminating station; and continuously extruding a polymeric adhesive between the top face of the primary substrate and bottom surface of the plastic film stock such that the two are adhered together with a bond strength greater than 15 N/cm as measured when the tabstock is pulled at 90° to the machine direction and at 180° to the primary substrate to form a primary laminate including a tabstock. The primary laminate formed can then be laminated to a board or synthetic secondary liner. | ||||||
| 184 | Heat sealable PCTFE film and tubing using high VF2 containing copolymers of CTFE/VF2 | US11295072 | 2005-12-06 | US20070128393A1 | 2007-06-07 | Jeffrey Moulton; Simon Porter; Eric Rainal; Yuan-Ping Ting; Michael Schumann |
| Heat sealable fluoropolymer-containing films and articles. More particularly, heat sealable films, tubes, packages, and other articles formed from a chlorotrifluoroethylene/vinylidene fluoride copolymer containing about 5% to about 25% vinylidene fluoride. The copolymers are capable of being formed into single or multilayer films that are heat sealable using conventional heat sealing methods while maintaining excellent clarity and moisture barrier properties. | ||||||
| 185 | Process for the production of coated polymeric film | US10250994 | 2002-01-25 | US06939584B2 | 2005-09-06 | Stephen William Sankey; Kenneth Evans; Mark Russell Hodgson |
| A process for producing a heat-sealable polymeric film comprises the steps of: (a) melt-extruding a substrate layer of polymeric material; (b) stretching the substrate layer in a first direction; (c) optionally stretching the substrate layer in a second, orthogonal direction; (d) optionally heat-setting the stretched substrate layer; (e) forming a heat-sealable coating layer on a surface of the substrate layer by melt-coating directly thereon a molten polymeric material; and (f) cooling the coated substrate layer; wherein coating step (e) is prior to step (b) or between steps (b) and (c); wherein the thickness of the coating layer is less than about 8 μm; wherein the molten polymeric material of the coating layer comprises a copolyester, and wherein the molten polymeric material comprises a copolyester. | ||||||
| 186 | Universal cover | US10291277 | 2002-11-12 | US20040091678A1 | 2004-05-13 | James Lowell Jordan |
| A universal cover whose edges are metallic foil and polymeric laminate, held together by heat sealing and/or adhesive, or any other method to attach them, so that one or both surfaces of the laminate is/are metallic foil. Metallic foil in the rim can be on one side, the other surface being polymeric film. Metallic foil can be on both sides, the polymeric film being between the two metallic foils. The can be used home, clinical, industrial, and settings. In clinical settings, such as as a stethoscope head cover, the internal membrane would be thin enough and deformable as not to interfere with sound collection and transmission; the deformability and holdability of the outside rim/edge would make it easy to apply and remove. The ease of transmission of sound through the thin membrane also makes it usable for cellular telephones, microphones, pagers, and other such sound transmission/receiving devises. When used for firearms, as a light cover for the muzzle of a weapon, the internal membrane can be thin enough and deformable to prevent contamination of the barrel, but thin enough not to interfere with projectile performance; the deformability and holdability of the outside rim would make it easy to apply and remove. When used to cover containers in a clinical, construction, business, or laboratory setting, the internal membrane can be inert enough not to react with the contents being covered, but the deformability of the outside rim/edge makes it easy to apply and remove. When used in field settings, for military or outdoor activities, the invention would be inexpensive, disposable, effective, and light. | ||||||
| 187 | Food tray having a laminated closure that is heat-retractable | US3672916D | 1970-08-31 | US3672916A | 1972-06-27 | VIRNIG HERBERT J |
| A FOOD CONTAINER COMPRISING A TRAY PORTION AND A COMPLEMENTARY CLOSURE MEMBER, SAID CLOSURE MEMBER COMPRISING IN SHEETLIKE LAMINATED FORM, A SHEETLIKE SUPPORT MEMBER OF RELATIVELY HEAT INSENSITIVE MATERIAL HAVING ONE OR MORE APERTURES OF PREDETERMINED SIZE FORMED THEREIN AND A FILM MEMBER OF HEAT SENSITIVE THERMOPLASTIC POLYMERIC MATERIAL SECURED AND LAMINATED TO ONE SURFACE OF SAID SUPPORT MEMBER AND EXTENDING OVER SAID APERTURE OR APERTURES PROVIDING A MOISTURE VAPOR BARRIER IN SAID CLOSURE MEMBER WHICH IN HEAT REACTIVE AT NORMAL COOKING OVEN TEMPERATURES.
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| 188 | LAMINATE FOR DIMENSIONALLY STABLE FOODSTUFF CONTAINERS HAVING AN OUTER POLYMER LAYER WITH A REFLECTANCE | US16302861 | 2017-05-23 | US20190210336A1 | 2019-07-11 | Dirk SCHIBULL; Alexander PAULING; Sven JOEKEN; Daniel ESSER |
| The invention relates to a sheetlike composite comprising, as layers of a layer sequence, from an outer face of the sheetlike composite to an inner face of the sheetlike composite, a) an outer polymer layer comprising i) a polymer matrix, and ii) a multitude of inorganic particles; b) a carrier layer; c) a barrier layer; and d) an inner polymer layer; wherein the outer polymer layer superposed on the carrier layer is characterized by a reflectance for a reflection of light having a wavelength in a range from 600 to 800 nm in a range from 4% to 8%. The invention further relates to a container precursor and to a closed container comprising the sheetlike composite and to a method by which the sheetlike composite is obtainable, to a method by which a container is obtainable, and to a method by which a filled and closed container is obtainable, and to a use of the sheetlike composite. | ||||||
| 189 | Laminate | US13284526 | 2011-10-28 | US10005598B2 | 2018-06-26 | Andrew Fenwick McLean; Victor Sachs; Craig Warren Thornhill |
| A primary laminate including a tabstock in which a seal laminate including a foil layer and a top foam layer, a tabstock and a plastic film stock are fed to a laminating station is provided herein. At the lamination station, a curtain of polymeric adhesive is extruded between the plastics film stock and the top face of the primary substrate, which is partly comprised of the top face of the tabstock and partly comprised of the top foam layer of the seal laminate. Use of primary laminates obtained by such a process to form seals for sealing a container, for food or drink stored at low temperatures, is also described. | ||||||
| 190 | Loop fastening material | US14725463 | 2015-05-29 | US09872543B2 | 2018-01-23 | Christopher M. Gallant; Mark A. Clarner |
| A touch fastener loop material has a non-woven web of fibers forming both a base and a field of high-tenacity hook-engageable loops extending outward from one broad side of the base. The fibers are arranged with a particularly low density while maintaining hook-engageability and usefulness as a fastening material. | ||||||
| 191 | Closure element for an abdominal belt | US14396826 | 2013-04-26 | US09802381B2 | 2017-10-31 | Stefanie Hertel |
| A flexible closure element for a closure of a medical or orthopedic product or sports product includes a first and second elastic cover layer and a sheet-type stabilizing element therebetween. The sheet-type stabilizing element is slotted over a least half of a length of the stabilizing element on at least one of two longitudinally running edges. | ||||||
| 192 | Biaxially oriented polyester film for metal lamination | US15480807 | 2017-04-06 | US20170291987A1 | 2017-10-12 | Matthias KONRAD; Bodo KUHMANN; David EHRHARDT; Thiemo HERBST; Holger KLIESCH; Cynthia BENNETT |
| The invention relates to a multilayer biaxially oriented polyester film comprising a base layer B, an amorphous outer layer A and a further outer layer C, where this polyester film is suitable for lamination with metal sheets. The invention in particular relates to a polyester film which comprises (based on the mass of polyester) from 2 to 15% by weight of isophthalate-derived units in the base layer and which comprises more than 19% by weight of isophthalate-derived units in the amorphous layer A, and which has a silane-based coating on the outer layer A. The invention further relates to a process for the production of these films. | ||||||
| 193 | RESIN-COATED METAL SHEET FOR CAN LIDS | US15532443 | 2015-12-08 | US20170266924A1 | 2017-09-21 | Norihiko NAKAMURA; Yoichiro YAMANAKA; Junichi KITAGAWA; Hiroki NAKAMURA; Hiroshi KUBO; Yusuke NAKAGAWA |
| A resin-coated metal sheet for can lids includes a metal sheet coated with thermoplastic resin films on both surfaces and formed into a can lid. A thermoplastic resin film A based on polybutylene terephthalate (PBT) and polyethylene terephthalate (PET) is heat-fused on a surface of the metal sheet serving as an exterior surface of the can lid, and a thermoplastic resin film B based on polyethylene terephthalate (PET) is heat-fused on a surface of the metal sheet serving as an interior surface of the can lid. A composition ratio (wt %) of PBT/PET in the thermoplastic resin film A on the exterior surface is (PBT/PET)=(40/60) to (80/20), and the thermoplastic resin film B on the interior surface includes 95 mol % or more of PET. | ||||||
| 194 | CONNECTING SYSTEMS FOR ADJACENT ENDS OF INSULATION TUBING INCLUDING TABBED SEPARATORS | US15467385 | 2017-03-23 | US20170191603A1 | 2017-07-06 | Brad Steverson; Greg Ertel |
| An adhesive assembly for joining adjacent ends of insulation tubing, comprising a layer of pressure-sensitive transfer adhesive material, said layer of pressure-sensitive transfer adhesive material capable of bonding to insulation tubing, whereby when said layer of pressure-sensitive transfer adhesive material is positioned between a first section of insulation tubing and a second section of insulation tubing, said layer of pressure-sensitive transfer adhesive material bonds to both the first section of insulation tubing and the second section of insulation tubing; and a disposable release liner including a release liner tab adapted to hold said layer of pressure-sensitive transfer adhesive material prior to positioning said layer of pressure-sensitive transfer adhesive material between the first section of insulation tubing and the second section of insulation tubing. The seam created when the first section of insulation tubing and the second section of insulation tubing are joined may be covered with tape. | ||||||
| 195 | Seal Stock Laminate | US15394881 | 2016-12-30 | US20170173930A1 | 2017-06-22 | Andrew Fenwick McLean; David John O'Brien; Victor Sachs; Craig Warren Thornhill |
| A method for producing a primary laminate including a tabstock by feeding a seal laminate comprising bottom food contact layers including a foil layer and a top polyester layer to a laminating station wherein either the foil layer of the underside of the polyester layer has been printed; simultaneously feeding a tabstock, which is narrower than the seal laminate, to the laminating station such that the bottom of the tabstock and the top polyester layer of the seal laminate come into contact to form a primary substrate, simultaneously feeding a plastic film stock; and continuously extruding a polymeric adhesive between the top face of the primary substrate and bottom surface of the plastic film stock. | ||||||
| 196 | Cover tape | US14126325 | 2012-06-12 | US09681595B2 | 2017-06-13 | Yusuke Tanazawa; Takeshi Ono |
| The present invention relates to a cover tape and to an electronic component package that uses the cover tape, the cover tape including at least a substrate layer, a heat seal layer, and an antistatic layer, the antistatic layer containing (A) an ionic liquid including a cyclic quaternary nitrogen-containing cation, (B) a quaternary ammonium salt, and (C) a polyalkylene glycol being formed on a surface toward the heat seal layer, and an anion constituting the (A) ionic liquid including a cyclic quaternary nitrogen-containing cation and the (B) quaternary ammonium salt being one or more anions selected from the group consisting of carboxylic acids, sulfuric acid esters, phosphoric acid esters, sulfonic acids, and phosphoric acids. | ||||||
| 197 | Lidding structure based on aromatic polyester film, coextruded with a sealable/peelable epdxy-containing thermoplastic polymer | US13668596 | 2012-11-05 | US09573348B2 | 2017-02-21 | Stefanos L. Sakellarides |
| A multi-layer film structure suitable as a sealable sheet used for closing foodstuff containers with a peelable seal. This multi-layer film comprises a polyester substrate layer and a heat-sealable layer. The heat-sealable layer is applied by coextrusion and contains an epoxy-containing thermoplastic polymer composition comprising residues of epoxy-containing monomers selected from glycidyl methacrylate, glycidyl acrylate, allyl glycidyl ether, 3,4-epoxy-1-butene, and a mixture of any two or more of such monomers. | ||||||
| 198 | Seal stock laminate | US14019334 | 2013-09-05 | US09533805B2 | 2017-01-03 | Andrew Fenwick McLean; David John O'Brien; Victor Sachs; Craig Warren Thornhill |
| A method for producing a primary laminate including a tabstock by feeding a seal laminate comprising bottom food contact layers including a foil layer and a top polyester layer to a laminating station wherein either the foil layer of the underside of the polyester layer has been printed; simultaneously feeding a tabstock, which is narrower than the seal laminate, to the laminating station such that the bottom of the tabstock and the top polyester layer of the seal laminate come into contact to form a primary substrate, simultaneously feeding a plastic film stock; and continuously extruding a polymeric adhesive between the top face of the primary substrate and bottom surface of the plastic film stock. | ||||||
| 199 | LOOP FASTENING MATERIAL | US14725420 | 2015-05-29 | US20160345686A1 | 2016-12-01 | Mark A. Clarner; Christopher M. Gallant |
| A touch fastener loop material has a non-woven web of fibers forming both a base and a field of high-tenacity hook-engageable loops extending outward from one broad side of the base. The fibers are distributed such that the field of loops has a particular fiber volume distribution as a function of elevation above the base. | ||||||
| 200 | Connecting Systems for Adjacent Ends of Insulation Tubing | US15174420 | 2016-06-06 | US20160319984A1 | 2016-11-03 | Darrell Peil; Brad Steverson; Greg Ertel |
| A connector or adhesive assembly for joining adjacent ends of insulation tubing, comprising a layer of pressure-sensitive transfer adhesive material, said layer of pressure-sensitive transfer adhesive material capable of bonding to insulation tubing, whereby when said layer of pressure-sensitive transfer adhesive material is positioned between a first section of insulation tubing and a second section of insulation tubing, said layer of pressure-sensitive transfer adhesive material bonds to both the first section of insulation tubing and the second section of insulation tubing; and a disposable release liner member adapted to hold said layer of pressure-sensitive transfer adhesive material prior to positioning said layer of pressure-sensitive transfer adhesive material between the first section of insulation tubing and the second section of insulation tubing. Generally, the seam created when the first section of insulation tubing and the second section of insulation tubing are joined is covered with tape. | ||||||
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