Abstract: A molded, decorative article having a fiber-reinforced geo-composite wall with a thickness of between 4-10 mm and a method of manufacturing the same, the fiber-reinforced geo-composite wall comprising, before curing, predominately 45-55 by weight % mineral-based type III clinker, 24-28 by weight % water, and 8-9 by weight % hydration control agent, the combination of clinker, water, and hydration control agent forming a basic water-reactive rapid-setting cementious binder, the hydration control agent controlling curing time of the water-reactive rapid-setting cementious binder, 1-2 by weight % combination of micro-fibers and macro-fibers dispersed evenly within the cementious binder, the micro-fibers being 3-6 mm and the macro-fibers being 7-25 mm in length, 0.03-0.10 by weight % combination of rheology modifier, polymer modifier, and moisture retention agent, 0-0.
Abstract: An ultraviolet (UV) curable resin composition is provided which includes 25 to 45 parts by weight of a modified epoxy acrylate oligomer; and 10 to 25 parts by weight of a urethane acrylate oligomer. Further provided is a metal sheet that is transparent and corrosion resistant, impact resistant, scratch resistant, adhesive, anti-corrosive, and bendable (workable) by forming a coating film on the surface of a metal material such as a steel material, specifically a steel sheet, using the UV curable resin composition mentioned above.
Type:
Grant
Filed:
November 12, 2009
Date of Patent:
December 30, 2014
Assignees:
Noroo Holdings Co., Ltd., Posco
Inventors:
Jin Tae Kim, Sang Gon Kim, Jae Ryung Lee, Jung Su Kim, Moon Jae Kwon, Chang Se Byeon
Abstract: A touch panel includes a cover substrate, an upper resin layer, upper conductive layers, a lower resin layer, lower conductive layers, and a protective layer. The upper conductive layers are in contact with the upper resin layer on the side opposite to the cover substrate. The lower resin layer is in contact with the upper conductive layers and the upper resin layer. The lower conductive layers are provided on the side of the lower resin layer opposite to the upper conductive layers with the lower resin layer placed between the lower conductive layers and the upper conductive layers. The protective layer is provided on the surface of the lower resin layer on which the lower conductive layers are formed. Each of the upper resin layer and the lower resin layer is formed of a uniform material.
Abstract: A composite prepreg base includes a raw prepreg base comprising a fiber sheet including discontinuous reinforcing fibers arranged in one direction and having a fiber length of 1-300 mm and a matrix resin infiltrated into the fiber sheet; and an additional resin layer formed on at least one surface of the raw prepreg base. The composite prepreg base is produced by a process including (i) the step of preparing the raw prepreg base and (ii) the step of forming an additional resin layer on at least one surface of the raw prepreg base prepared. A layered base includes two or more sheets of the composite prepreg base which have been superposed so that the additional resin layer is present on at least one surface; and a fiber-reinforced plastic formed by heating and pressing the layered base.
Abstract: Impact-damage-resistant glass sheet comprising at least one chemically etched surface in combination with a tempering surface compression layer, the glass sheet exhibiting a high standardized ball drop failure height and a high flexural modulus of rupture strength, useful to provide damage-resistant glass cover sheets for consumer electronic video display devices, is provided by subjecting thin glass sheet to a combination of a surface tempering treatment and a surface etching treatment that improves strength while maintaining the optical glass sheet properties required for video display applications.
Type:
Grant
Filed:
January 7, 2011
Date of Patent:
November 18, 2014
Assignee:
Corning Incorporated
Inventors:
John Frederick Bayne, James Joseph Price, Daniel A. Sternquist, Jaymin Amin
Abstract: A medical device has a structure made of a first biodegradable and/or bioabsorbable material and a second biodegradable and/or bioabsorbable material encapsulating a degradation additive incorporated into the first biodegradable and/or bioabsorbable material. The second biodegradable and/or bioabsorbable material has a degradation rate that is faster than the degradation rate of the first biodegradable and/or bioabsorbable material such that the structure experiences a period of accelerated degradation upon release of the degradation additive following sufficient degradation of the second biodegradable and/or bioabsorbable material.
Abstract: A composition having nanoparticles of a refractory-metal boride and a carbonaceous matrix. The composition is not in the form of a powder. A composition comprising a metal component, boron, and an organic component. The metal component is nanoparticles or particles of a refractory metal or a refractory-metal compound capable of decomposing into refractory metal nanoparticles. The organic component is an organic compound having a char yield of at least 60% by weight or a thermoset made from the organic compound. A method of combining particles of a refractory metal or a refractory-metal compound capable of reacting or decomposing into refractory-metal nanoparticles, boron, and an organic compound having a char yield of at least 60% by weight to form a precursor mixture. A composition having nanoparticles of a refractory-metal boride that is not in the form of a powder.
Type:
Grant
Filed:
February 15, 2013
Date of Patent:
October 21, 2014
Assignee:
The United States of America, as represented by the Secretary of the Navy
Inventors:
Teddy M Keller, Andrew Saab, Matthew Laskoski, Syed B Qadri
Abstract: There is described a toothed belt comprising an elastomeric material body, in which a plurality of longitudinal filiform resistant inserts is embedded, and a toothing coated by a coating fabric. A resistant layer that increases the resistance to abrasion and thus the resistance to wear of the toothed belt is adhered over the coating fabric. The resistant layer comprises a vulcanization agent and more than 75% of an elastomer formed by at least one copolymer modified with an unsaturated carboxylic acid salt and obtained from a dien monomer and a nitrile group-containing monomer. The resistant layer is advantageously separated from the fabric and is calendered on the fabric itself.
Abstract: A barrier film includes a base which is formed of a plastic film having a first surface and a second surface opposed to the first surface, a first barrier layer which is formed on the first surface by an atomic layer deposition method and is made of an inorganic material having a water vapor barrier property; and a second barrier layer which is formed on the second surface by an atomic layer deposition method and is made of an inorganic material having a water vapor barrier property.
Type:
Grant
Filed:
October 12, 2011
Date of Patent:
September 9, 2014
Assignee:
Sony Corporation
Inventors:
Andrew Chakchung Yu, Hiroaki Ono, Takahiro Kawana
Abstract: Fiber-like or film-like moldings are produced from a plastified mixture which, based on its weight, is from 60 to 10% by weight of a carrier component and from 40 to 90% by weight of a phase change material. The carrier component contains from 5 to 20% by weight of a polymer or polymer blend from the group of LDPE (low density polyethylene), HDPE (high density polyethylene), PMMA (polymethyl methacrylate), polycarbonate, or mixtures thereof, from 5 to 20% by weight of a styrene block copolymer, and from 0 to 20% by weight of one or more additives. Especially suitable phase change materials include natural and synthetic paraffins, polyethylene glycol (=polyethylene oxide), and mixtures thereof. The plasticized mixture is extruded through a spinneret or a slit die at a temperature of from 130 to 220° C. and is stretched.
Abstract: A process for manufacturing an article includes the steps of applying a quantity of a refractory metal sufficient to produce a coating on a carbon based felt; processing thermally a refractory metal coated carbon based felt at a temperature and for a period of time sufficient to form a ceramic based felt; and cooling the ceramic based felt under a controlled atmosphere.
Abstract: The invention relates to a decorative element, to a dashboard of a motor vehicle, and to a method for manufacturing said decorative element, wherein the decorative element includes a first portion and a second portion, the first portion of the decorative element being made of a first non-transparent material, wherein said first material has a decoration layer, and the second portion of the decorative element being made of a second transparent material, the first portion and the second portion of the decorative member being unitary.
Abstract: A composition having nanoparticles of a refractory-metal carbide or refractory-metal nitride and a carbonaceous matrix. The composition is not in the form of a powder. A composition comprising a metal component and an organic component. The metal component is nanoparticles or particles of a refractory metal or a refractory-metal compound capable of decomposing into refractory metal nanoparticles. The organic component is an organic compound having a char yield of at least 60% by weight or a thermoset made from the organic compound. A method of combining particles of a refractory metal or a refractory-metal compound capable of reacting or decomposing into refractory-metal nanoparticles with an organic compound having a char yield of at least 60% by weight to form a precursor mixture.
Type:
Grant
Filed:
January 25, 2013
Date of Patent:
September 2, 2014
Assignee:
The United States of America, as represented by the Secretary of the Navy
Inventors:
Teddy M Keller, Andrew Saab, Matthew Laskoski, Manoj K. Kolel-Veetil, Syed B Qadri
Abstract: A composition having nanoparticles of a boron carbide and a carbonaceous matrix. The composition is not in the form of a powder. A composition comprising boron and an organic component. The organic component is an organic compound having a char yield of at least 60% by weight or a thermoset made from the organic compound. A method of combining boron and an organic compound having a char yield of at least 60% by weight, and heating to form boron carbide or boron nitride nanoparticles.
Type:
Grant
Filed:
February 28, 2013
Date of Patent:
August 26, 2014
Assignee:
The United States of America, as represented by the Secretary of the Navy
Inventors:
Teddy M Keller, Andrew Saab, Matthew Laskoski, Syed B Qadri
Abstract: A method for texturing an alkali alumina silicate glass substrate includes cleaning the glass substrate with at least one surfactant and etching the glass substrate using a caustic solution. The percentage of caustic solution is provided by controlling a fluid flow and temperature to control the depth of the etching. The method also includes acid cleaning the etched glass substrate to remove glass residuals and surfactants and chemically strengthening the etched and cleaned substrate.
Type:
Grant
Filed:
November 2, 2009
Date of Patent:
August 26, 2014
Assignee:
Rockwell Collins, Inc.
Inventors:
Paul R. Nemeth, John W. Sackfield, Gary N. Prior, David D. Pohl
Abstract: Embodiments herein relate to a polyolefin-containing film comprising a solidified form of a melt, the melt comprising at least 1 weight percent shredded recycled crosslinked vinyl-alcohol polymer coated polyolefin material and an amount of a compatibilizing agent and/or an un-crosslinking agent configured to un-crosslink the crosslinked vinyl-alcohol in the melt, the polyolefin-containing film having an average dimple count of less than about 50 dimples/4 in2, and method of manufacturing the same.
Abstract: [Problems to be Solved] A neutron scintillator excellent in neutron detection efficiency and n/? discrimination ability, and a metal fluoride eutectic preferred for the neutron scintillator are provided. [Means to Solve the Problems] A metal fluoride eutectic having a cerium-containing calcium fluoride crystal phase and a lithium fluoride crystal phase present in a phase-separated state, and a neutron scintillator comprising the metal fluoride eutectic.
Type:
Grant
Filed:
November 1, 2011
Date of Patent:
August 5, 2014
Assignees:
Tokuyama Corporation, Tohoku University
Abstract: An underlayment mat for single ply roof membranes which provides the following: insulation, separate the roof membrane from incompatible materials in the substrate, protect the roof membrane from puncture or undue wear from irregular surfaces on the substrate, provide adequate support while being flexible enough to work with the single ply membrane to absorb shock and, or provide a continuous, flat upper surface on which a roof covering is applied. The underlayment member may be woven or unwoven, it may be spun bound or needled punched or constructed by whatever method best achieves the desired physical characteristics herein described at the most economical cost. Further, this mat may be made of the following materials including but not limited to and either individually or combined: Various synthetic fibers, acrylic, rayon, nylon, polyester, foam or foam scraps, and or mineral fibers such as glass, carbon, mineral wool, ceramic, and slag wood fibers.
Type:
Grant
Filed:
April 17, 2003
Date of Patent:
July 15, 2014
Assignee:
L&P Property Management Company
Inventors:
Ralph Berryman Smith, Donald Otis McCleskey, Norman F. Manning, L. Ralph Smith
Abstract: Provided is an assembly including a block co-polymer film and a plurality of nano-rods; where the plurality of nano-rods are oriented at the surface of the block co-polymer film, substantially perpendicular to at least one interface between block co-polymer domains. Further provided are methods of assembly formation and devices including such assemblies.
Type:
Grant
Filed:
February 4, 2010
Date of Patent:
July 15, 2014
Assignee:
Yissum Research Development Company of the Hebrew University of Jerusalem, Ltd.
Inventors:
Roy Shenhar, Uri Banin, Elina Ploshnik, Asaf Salant
Abstract: Methods for growing a three-dimensional nanorod network in three-dimensional growth spaces, including highly confined spaces, are provided. The methods are derived from atomic layer deposition (ALD) processes, but use higher temperatures and extended pulsing and/or purging times. Through these methods, networks of nanorods can be grown uniformly along the entire inner surfaces of confined growth spaces.