61 |
INTERMEDIATE COMPOSITE PANEL FOR ROOFING AND WALLS |
US13847110 |
2013-03-19 |
US20130243991A1 |
2013-09-19 |
Luc McGuire |
A composite intermediate panel comprises a structural layer providing the structural integrity of the composite intermediate panel. Pressure-sensitive adhesive layers are on opposite main surfaces of the structural panel, the pressure-sensitive adhesive layers applied in plant. A backing sheet layer is provided for each adhesive layer, the backing sheet layer adhered to the pressure-sensitive adhesive layer, and being peelable off the pressure-sensitive adhesive layer to expose the pressure-sensitive layer. Attachment units of rigid material are on one of the main surfaces of the building panel, the attachment units being positioned at a location where mechanical fasteners secure the building panel to a structure. |
62 |
Panel including thermochromic layer and electric conductive layer |
US12848933 |
2010-08-02 |
US08390915B2 |
2013-03-05 |
Mi-Hyun Lee; Myun-Gi Shim; Soo-Ho Park; Dong-Gun Moon |
A panel including a substrate coated with a thermochromic layer, and a plurality of electric conductive layers formed of an electric conductive material. Here, the infrared ray transmittance of the panel is randomly or desirably adjusted as an electric conductive layer generates heat, and the color tone of the panel may be adjusted as desired by a user. |
63 |
SYSTEMS AND METHODS FOR PRODUCING A TILEWAVE FABRIC |
US12860687 |
2010-08-20 |
US20120045605A1 |
2012-02-23 |
Jason Collins |
One example embodiment includes a tilewave material. The tilewave material includes a fiber and a first tile, where the first tile includes a first surface and a second surface. The tilewave material also includes a second tile, where the second tile includes a first surface and a second surface. The tilewave material further includes a first attachment means, where the first attachment means attaches the first tile to the fiber, and a second attachment means, where the second attachment means attaches the second tile to the first fiber. |
64 |
Foamed Airstream Surface Duct Product |
US12695340 |
2010-01-28 |
US20110183096A1 |
2011-07-28 |
Michael J. Lembo; John Bozek; Renee Chesler |
The present invention provides insulation duct products including an insulation layer containing fibrous material bound with a resinous binder, an inner surface and an outer surface, and a closed cell foam layer adhered to an inner surface of the insulation layer. The closed cell foam layer includes a thickness of less than 0.5 inches (1.27 cm), and has a density of less than about 12 pcf. |
65 |
PANEL INCLUDING THERMOCHROMIC LAYER AND ELECTRIC CONDUCTIVE LAYER |
US12848933 |
2010-08-02 |
US20110122478A1 |
2011-05-26 |
Mi-Hyun Lee; Myun-Gi Shim; Soo-Ho Park; Dong-Gun Moon |
A panel including a substrate coated with a thermochromic layer, and a plurality of electric conductive layers formed of an electric conductive material. Here, the infrared ray transmittance of the panel is randomly or desirably adjusted as an electric conductive layer generates heat, and the color tone of the panel may be adjusted as desired by a user. |
66 |
CARBON NANOTUBE COMPOSITE FILM AND METHOD FOR MAKING THE SAME |
US11967125 |
2007-12-29 |
US20090068448A1 |
2009-03-12 |
Chang-Hong Liu; Shou-Shan Fan |
A carbon nanotube composite film includes at least one carbon nanotube layer and at least one base material layer. A method for making a carbon nanotube composite film includes the steps of: (a) providing a substrate having a carbon nanotube array formed thereon; (b) providing a base material layer, and covering the base material layer on the carbon nanotube array; (c) providing a pressing device, and pressing the carbon nanotube array with the base material layer covered thereon by the pressing device to form a carbon nanotube layer and thus acquiring a carbon nanotube composite film. |
67 |
Duct wrap and method for fire protecting a duct |
US11057277 |
2005-02-11 |
US20060182915A1 |
2006-08-17 |
George Frost; John Brady; Brandon Cordts |
An article for fire protecting a duct includes a first layer of a first material including a noncombustible fibrous material and a second layer of a second material including an intumescent material. The first layer is adjacent the second layer. The article is non-self-supporting and has an initial thickness of less than about three inches when in a first application condition, and an expanded thickness when in a second heated condition. The expanded thickness is greater than the initial thickness. At the expanded thickness, the article meets Section 5.5 of AC101 Acceptance Criteria for Grease Duct Enclosure Assemblies, as specified in April 2001 by the International Council of Building Officials (ICBO-ES). |
68 |
Primerless latex paint with tannin blocking |
US09835447 |
2001-04-16 |
US06531223B1 |
2003-03-11 |
Darlene D. Rota; Lorette Madigan; Elizabeth C. Bell; Robert A. Martuch |
A water based coating composition which does not require a primer for application over wood, masonry, metal, vinyl siding and previously painted surfaces and can be applied over these surfaces in a single coat to provide the tannin blocking, hiding, corrosion resistance and durability of a conventional primer plus two coats of latex paint. |
69 |
Manufacture of carbon fibre preform |
US202890 |
1994-02-28 |
US5599603A |
1997-02-04 |
Maurice J. Evans; Keith A. Williams; Ronald Fisher |
In a method of making a carbon fibre preform such as for use in the manufacture of a friction disc a compressible body of carbon fibre or carbon fibre precursor material is acted upon by compressing means to compress the body to a required thickness and then operated upon by means such as a barbed needle-punch needle for a stitching thread which penetrates substantially the whole thickness of the body whereby the compressed preform may be removed from action by the compressing means in a free-standing and compressed state. If the method uses carbon fibre precursor material, that is then subjected to carbonization. |
70 |
Facing material for cork or other disks for bottle-caps. |
US9630416 |
1916-05-09 |
US1213926A |
1917-01-30 |
MCMANUS CHARLES E |
|
71 |
FILM HAVING A WOOD-LIKE APPEARANCE |
US15574728 |
2016-05-27 |
US20180141318A1 |
2018-05-24 |
Cédric REUTER; Adrian FASEL; Sascha JÜRGENS; Evgeny BELUKHICHEV; Christian KOHLERT |
The invention relates to a film having a wood-like appearance and having a width from 0.1 to 6 m, a length of 2 to 10,000 m, a thickness from 180 to 1,000 μm and formed from, a material which contains, relative the total weight thereof 40 to 85 wt % of vinylchloride polymerizate, 10 to 60 wt % of a powder made from vegetable components, 0 to 30 wt % of one or more inorganic filler substances, and 5 to 30 wt % of one or more additives. |
72 |
Reinforced composites, methods of manufacture, and articles therefrom |
US14540177 |
2014-11-13 |
US09962903B2 |
2018-05-08 |
Lei Zhao; Zhiyue Xu |
A reinforced composite comprises: a reinforcement material comprising one or more of the following: a carbon fiber based reinforcing material; a fiberglass based reinforcing material; a metal based reinforcing material; or a ceramic based reinforcing material; and a carbon composite; wherein the carbon composite comprises carbon and a binder containing one or more of the following: SiO2; Si; B; B2O3; a metal; or an alloy of the metal; and wherein the metal is one or more of the following: aluminum; copper; titanium; nickel; tungsten; chromium; iron; manganese; zirconium; hafnium; vanadium; niobium; molybdenum; tin; bismuth; antimony; lead; cadmium; or selenium. |
73 |
STRUCTURES CONSTRUCTED USING COAL COMBUSTION MATERIALS |
US15710580 |
2017-09-20 |
US20180050965A1 |
2018-02-22 |
Francis Norbert Hector, JR.; Juan Keith Carroll |
Beneficial use structures are disclosed that include coal combustion residuals (“CCR”) mixed with water and a binder to form a structural material and adapted to be compacted for use in the formation of the beneficial use structure. Various structures having beneficial uses described, including survival bunkers, composting pits, mine reclamation encapsulation and carbon sequestration facilities, water storage facilities, compressed air storage facilities, carbon sequestration/mineral carbonation facilities and a pumped hydroelectric facility adapted for use with a lock system of a waterway. |
74 |
NON-FLAMMABLE LAMINATE |
US15528135 |
2015-11-19 |
US20170328063A1 |
2017-11-16 |
Volkmar ANDRÉ; Holger HELD |
The invention relates to a laminate, in particular for manufacturing a construction panel, consisting of a combination of at least one carrier material layer made of a non-flammable non-woven impregnated with a resin and at least one decorative material layer made of a decorative paper that is impregnated with a melamine formaldehyde resin and is optionally dyed and/or printed. The invention further relates to a method for manufacturing a disclosed laminate and especially a construction panel. |
75 |
PRECAST PANEL WITH PLASTERING-LIKE APPEARANCE |
US14993450 |
2016-01-12 |
US20170198482A1 |
2017-07-13 |
Kun-Lung TSOU |
A precast panel with plastering-like appearance is provided. The panel is built from a wooden substrate on which at least a mineral layer is prebuilt. When affixed to a wall, the wooden panel gives a visual effect simulating plastering. The panel has advantages inherited from its wooden substrate such as lightweight, economical and easy transportation, while exhibiting exclusive and fishable feeling like plastering, thereby serving as a low-cost yet high-quality choice for consumers. |
76 |
Polyarylene Sulfide Composition |
US15373969 |
2016-12-09 |
US20170166748A1 |
2017-06-15 |
Rong Luo; Xinyu Zhao |
A polymer composition that comprises a polyarylene sulfide, inorganic fibers, an impact modifier, an organosilane compound, and a high molecular weight siloxane polymer is provided. |
77 |
Composition and method for making a flexible packaging film |
US13828259 |
2013-03-14 |
US09631063B2 |
2017-04-25 |
Ashley Leidolf; Brad Dewayne Rodgers; Benjamin Soucy |
Composition and method for making a flexible packaging film having highly loaded with at least one inorganic filler. A blown HDPE film comprising at least 50% by weight inorganic filler is oriented in the machine direction to increase yield and tensile strength, and reduce gauge variation to improve print qualities. |
78 |
Mobile terminal booth |
US14906167 |
2014-07-24 |
US09523191B2 |
2016-12-20 |
Shigeki Uetabira |
A mobile terminal booth which provides an area where a mobile terminal can be used in a public place. This mobile terminal booth is provided with a sound absorbing unit which is placed in a public place and partially partitions a space as viewed from the above where a user of a mobile terminal can have a telephone conversation. The sound absorbing unit is made of a laminate consisting of a plurality of sound absorbing layers. The sound absorbing layers are joined together in the form of the laminate with a viscous adhesive which does not solidify after formation of said laminate, and maintains its viscosity when the mobile terminal booth is used. |
79 |
PRESSURE-SENSITIVE ADHESIVE AND PRODUCTS |
US15143660 |
2016-05-02 |
US20160243793A1 |
2016-08-25 |
Jesse Alvin Binkley |
An asphalt base pressure-sensitive adhesive includes asphalt, an elastomer, residual pitch, as well as isoflour and optional oil and other inert fillers. The amount of elastomer is reduced by incorporating the residual pitch product which acts as an extender of the elastomer. Further, the isoflour further acts as an extender, and is compatible with the residual pitch. In a preferred embodiment, the pitch product is pine pitch. |
80 |
A PROCESS FOR MANUFACTURING A COMPOSITE MATERIAL, AND A COMPOSITE MATERIAL SHAPED WITH LAYERS |
US14912796 |
2014-08-22 |
US20160193804A1 |
2016-07-07 |
Jose Carlos Ricciardi |
A description is given of a new product composed of natural and synthetic fibres, and also processes for producing a material for structural use that consists in the following steps: (i) arranging at least a first blanket 11 and at least a second blanket 11′, each of which is composed of natural and synthetic fibres and of at least one intermediate layer 12 based on olefins, between the first blanket 11 and the second blanket 11′, in order to obtain the required geometry; (ii) heating, compression and adhesion of the assembly obtained in step (i); and (iii) cooling of the assembly obtained in step (ii) to at least a hardening temperature. |