Abstract: A process for producing preshrunk hardwood floors. The process comprises the steps of selecting untreated hardwood flooring having a predetermined thickness and a predetermined width and then placing such untreated hardwood flooring in a drying kiln. Another step is operating the drying kiln for a predetermined time at a predetermined temperature in order to remove moisture from the hardwood flooring and then determining one of the moisture remaining in the hardwood flooring or the moisture that was lost during the operation of the drying kiln. Another step is removing the hardwood flooring that was dried in the drying kiln in the previous steps. This is followed by sealing the pores of the hardwood flooring, while the wood is still hot, that was kiln dried in the previous steps, with a sealer.
Abstract: A Fabry-Perot filter is applied as a thin coating on a film, for example, a packaging film, and permits interesting color effects. The coating has a layered construction in which both reflecting layers of the filter may be made of aluminum and the intermediate layer between the reflecting layers may be made of aluminum oxide.
Type:
Grant
Filed:
December 9, 2010
Date of Patent:
December 4, 2012
Assignee:
Applied Materials GmbH & Co. KG
Inventors:
Gerd Hoffmann, Rainer Ludwig, Hans-Georg Lotz, Gerhard Steiniger
Abstract: The present invention provides polymeric substrates comprising a biocompatible coating and methods of preparation thereof. In particular, the coating may be a ceramic material, especially a calcium phosphate material, which may be functionally graded. The invention provides the ability to apply high quality coatings to polymeric substrates without damaging the substrate (e.g., melting the polymeric material). The functionally graded coating can provide crystalline calcium phosphate near the coating interface with the substrate and provide amorphous calcium phosphate at the outer surface of the coating.
Abstract: An intraocular lens with a hydrophilic polymer coating composition and method of preparing same are provided. Specifically, a composition suitable for reducing tackiness in intraocular lenses is provided wherein an acrylic intraocular lens is treated by vapor deposition with an alkoxy silyl terminated polyethylene glycol polymer composition.
Type:
Grant
Filed:
May 13, 2011
Date of Patent:
December 4, 2012
Inventors:
Michael D Lowery, Laurent Hoffmann, Boris Kobrin, Romuald Nowak, Jeffrey D Chinn, Richard C Yi
Abstract: The invention relates to a method for producing an optical article having antireflection or reflective properties and comprising a substrate having at least one main surface, comprising the step of depositing an sub-layer onto a substrate's main surface, the step of treating the sub-layer by ionic bombardment and the step of depositing onto said sub-layer a multilayered stack comprising at least one high refractive index layer and at least one low refractive index layer. According to a preferred embodiment, the deposition of the sub-layer is conducted in a vacuum chamber in which a gas is supplied during the deposition step.
Type:
Grant
Filed:
February 22, 2008
Date of Patent:
November 27, 2012
Assignee:
Essilor International (Compagnie Generale d'Optique)
Abstract: A stent is coated by ejecting droplets of a coating substance from a reservoir containing a coating substance. A reservoir housing can have a plurality of reservoir compartments. A transducer is used to eject the coating substance from the reservoir. Energy from the transducer is focused at a meniscus or an interface between the coating substance and another coating substance in the reservoir.
Type:
Grant
Filed:
June 17, 2011
Date of Patent:
November 27, 2012
Assignee:
Advanced Cardiovascular Systems, Inc.
Inventors:
Jason Van Sciver, Yung-Ming Chen, Lothar Kleiner
Abstract: Medical devices, and in particular implantable medical devices such as stents and stent delivery systems including catheters, may be coated to minimize or substantially eliminate a biological organism's reaction to the introduction of the medical device to the organism or to treat a particular condition. A dip coating process is utilized to minimize waste and to customize coating thickness and drug loading directly at the clinical site just prior to therapeutic use on a patient. An aqueous latex polymeric emulsion is utilized to coat any medical device to a desired thickness by allowing for successive dipping and drying cycles at the clinical site. In addition, aqueous latex polymeric emulsions pose less of a chance of the bridging phenomenon associated with organic solvent based polymers.
Type:
Grant
Filed:
August 11, 2004
Date of Patent:
November 27, 2012
Inventors:
Harry Halleriet, Pallassana V. Narayanan
Abstract: The present invention relates to an electroless deposition of metallic silver on various plates. More particularly, in the present invention, by spraying a silver solution including ionic silver to be reduced into metallic silver and a reducing solution a reducing agent for reducing the silver solution at the same time to a predetermined region above a substrate, metallic silver particles having a diameter less than 30 ? are formed, and a silver layer is formed by a deposition of the nano-sized metallic silver. Since the silver layer includes nano-sized silver particles having a diameter less than 3 nm, a reflector having a high density, that is, surface roughness, can be manufactured. The reflector has a considerably excellent reflectance.
Type:
Grant
Filed:
December 29, 2009
Date of Patent:
November 27, 2012
Assignee:
Nano CMS Co., Ltd
Inventors:
Si Doo Kim, Seong Uk Lee, Jae Youn Hwang, Shi Surk Kim
Abstract: For producing a polyurethane layer by spraying a polyurethane reaction mixture, this mixture is supplied under pressure to a spray nozzle, within the nozzle the reaction mixture is accelerated by passing it through one or more channels having a reduced cross-sectional area, and the accelerated reaction mixture is sprayed, with a predetermined amount of kinetic energy, through a spray opening out of the spray nozzle onto a surface. The channels wherein the reaction mixture is accelerated have a total minimum cross-sectional area of S mm2, S being a value smaller than 1.0, the reaction mixture is sprayed out of the nozzle at a flow rate of between 10×S and 80×S g/sec, and, per gram reaction mixture, an amount of 0.05 to 2.5 mmol of a pressurized gas is sprayed together with the reaction mixture through said spray opening out of the nozzle to increase the kinetic energy of the reaction mixture which is sprayed out of the nozzle.
Type:
Grant
Filed:
December 22, 2005
Date of Patent:
November 27, 2012
Assignee:
Recticel Automobilsysteme GmbH
Inventors:
Hugo De Winter, Gert Stalpaert, Jan Willems
Abstract: A process for fabricating a structural color having ultraviolet reflectance is provided. The process includes providing an atomizing nozzle, a first nanoparticle solution and a second nanoparticle solution. The atomizing nozzle is used to spray a plurality of first nanoparticle solution layers, the plurality of first nanoparticle layers forming a low index of refraction stack. In some instances, a polymer solution can be sprayed before and/or after the spraying of each first nanoparticle solution layer. The atomizing nozzle is also used to spray a plurality of second nanoparticle solution layers, the plurality of second nanoparticle layers form a high index of refraction stack. Similar to the first nanoparticle solution layers, a polymer solution can be sprayed before and/or after the spraying of each second nanoparticle solution layer.
Type:
Grant
Filed:
September 29, 2010
Date of Patent:
November 20, 2012
Assignees:
Toyota Motor Engineering & Manufacturing North America, Inc., Massachusetts Institute of Technology
Inventors:
Grinia Michelle Nogueira, Debasish Banerjee, Michael F. Rubner, Robert E. Cohen
Abstract: The invention provides a medical implant device or component thereof comprising a metal substrate, an intermediate coating, and an outer coating of aluminum oxide, as well as a method of making such a medical implant device or component thereof.
Abstract: A method of treating a zinc-galvanized metal surface, which has been chemically passivated, the treatment providing increased resistance to corrosion and improved adherence to a subsequently applied organic coating comprising contacting a chromium passivated, zinc-galvanized metal surface with a coating solution bath comprising from about 1 to about 10 parts per thousand, based on fluorine content, of an inorganic acid or ion that contains fluorine; at least 0.5 parts per thousand, based on transition metal cation content, of an oxide and/or a salt of nickel; and optionally, from about 0 to about 3.0 grams per liter of a polymer selected from the group consisting of polyacrylic acid, polymethacrylic acid, and C1 to C8 alkanol esters thereof; wherein the pH of the solution is from about 2.0 to 3.6 and the temperature of the solution is at least 60° C.; and thereafter sealing the treated surface.
Abstract: An improved vapor-phase deposition method and apparatus for the application of multilayered films/coatings on substrates is described. The method is used to deposit multilayered coatings where the thickness of an oxide-based layer in direct contact with a substrate is controlled as a function of the chemical composition of the substrate, whereby a subsequently deposited layer bonds better to the oxide-based layer. The improved method is used to deposit multilayered coatings where an oxide-based layer is deposited directly over a substrate and a SAM organic-based layer is directly deposited over the oxide-based layer. Typically a series of alternating layers of oxide-based layer and organic-based layer are applied.
Type:
Grant
Filed:
November 4, 2010
Date of Patent:
October 30, 2012
Assignee:
Applied MicroStructures, Inc.
Inventors:
Boris Kobrin, Jeffrey D. Chinn, Romuald Nowak, Richard C. Yi
Abstract: A process and apparatus for growing a group (III) metal nitride film by remote plasma enhanced chemical vapor deposition are described. The process comprises heating an object selected from the group consisting of a substrate and a substrate comprising a buffer layer in a growth chamber to a temperature in the range of from about 400° C. to o about 750° C., producing active neutral nitrogen species in a nitrogen plasma remotely located from the growth chamber and transferring the active neutral nitrogen species to the growth chamber. A reaction mixture is formed in the growth chamber, the reaction mixture containing a species of a group (III) metal that is capable of reacting with the nitrogen species so as to form a group (III) metal nitride film and a film of group (III) s metal nitride is formed on the heated object under conditions whereby the film is suitable for device purposes. Also described is a group (III) metal nitride film which exhibits an oxygen concentration below 1.6 atomic %.
Type:
Grant
Filed:
September 27, 2005
Date of Patent:
October 30, 2012
Assignee:
Gallium Enterprises Pty Ltd.
Inventors:
Kenneth Scott Alexander Butcher, Marie-Pierre Francoise Wintrebert ep Fouquet, Patrick Po-Tsang Chen, John Leo Paul Ten Have, David Ian Johnson
Abstract: A method of fabricating a discrete track magnetic recording media. A base layer is provided onto which repeating and alternating magnetic layer and non-magnetic layers are deposited. The thickness of the magnetic layer corresponds to the width of the track of the recording media. A cylindrical rod can be used as the base layer, such that the alternating magnetic and non-magnetic layers spiraling or concentric layers around the rod. The resulting media layer can be cut or sliced into individual magnetic media or used to imprint other media discs with the discrete pattern of the media layer.
Abstract: A silicon oxide layer is formed by oxidation or decomposition of a silicon precursor gas in an oxygen-rich environment followed by annealing. The silicon oxide layer may be formed with slightly compressive stress to yield, following annealing, an oxide layer having very low stress. The silicon oxide layer thus formed is readily etched without resulting residue using HF-vapor.
Type:
Grant
Filed:
October 14, 2009
Date of Patent:
October 16, 2012
Assignee:
Robert Bosch GmbH
Inventors:
Aaron Partridge, Markus Lutz, Silvia Kronmueller
Abstract: A substrate for biochips is manufactured so that the substrate has a substrate surface having a reaction region capable of reacting with biological substances and a non-reaction region not reacting with the biological substances, sunken bottomed wells formed in the substrate surface, and a layer of a material capable of reacting with the biological substances having a surface exposed only at the bottoms of the bottomed wells, the exposed surface forming the reaction region.