Abstract: A reinforcement liquid jet device includes a nozzle unit that is spaced apart from a display panel by a predetermined interval and that jets a reinforcement liquid to a side of the display panel, a moving frame that is movably installed and the nozzle unit is coupled to the moving frame, a mask unit that is rotatably coupled to the moving frame, and a driving unit that is coupled to the moving frame and that rotates the mask unit.

Abstract: An intraocular lens insertion apparatus includes a hollow tube having an interior wall defining a hollow space through which an intraocular lens may be passed from the open space into an eye. A lubricity enhancing component is covalently bonded to the hollow tube at the interior wall in an amount effective to facilitate the passage of the intraocular lens through the hollow space. The lubricity enhancing component includes a substituent component effective to reduce hydrolysis of said lubricity enhancing component relative to an identical lubricity enhancing component without the substituent component.

Abstract: Applicants have disclosed a process for fusing a biocompatible glass to a metal substrate. In the preferred embodiment, the process comprises: grit blasting a metallic substrate (e.g., titanium) to remove a surface layer of the metal; after blasting, cleaning the abrasion residue off the surface layer; blending a solvent to use as a suspension agent; creating a suspension of biocompatible and bioactive glass-coating powders in the solvent solution; depositing the suspension onto the metallic substrate; drying thoroughly the suspension-coated metallic substrate; inserting the dried, coated substrate into a non-reactive chamber, purging the chamber with an inert gas, such as pure argon; and firing the metallic substrate, inside the furnace, in the inert gas. This process forms a robust fusion between the biocompatible glass and titanium, according to preliminary test results. This process can be used for various medical and dental devices, including implants and onplants.

Abstract: Water swellable articles are treated with wax by applying a molten wax to the article, the wax having a kinematic viscosity of between about 0.1 cSt to 20 cSt at 100° C., wherein the temperature of the article at the time of applying is about 40° C. to 200° C., with the proviso that the temperature is not less than 30° C. below the melting point of the wax. Using this method of treatment, swelling of the article in water is reduced by at least 25% compared to the same article treated with molten wax wherein the article is at ambient temperature at the time the wax is applied.

Abstract: A method for applying an aerodynamically functional coating to an exterior surface is provided. The method includes preparing an uncoated substrate surface to obtain a prepared substrate surface; applying a primer on the prepared substrate surface to obtain a primed substrate surface with a primer layer; applying and curing a basecoat field color to obtain a basecoat field color layer; masking for a basecoat design color on the basecoat field color layer; applying and curing the basecoat design color to obtain a first basecoat design color layer; masking for, applying, and curing any subsequent basecoat design color layers on the basecoat field color layer; applying and curing a clearcoat to obtain a first clearcoat layer; mechanically aero-contouring a plurality of coating edges to obtain an aero-contoured surface; and, applying additional clearcoat to obtain one or more additional clearcoat layers.

Abstract: A method of purifying at least one of THC and CBD from a cannabis-containing composition includes heating the cannabis-containing composition to a temperature sufficient to volatilize at least one of THC and CBD into a vapor and condensing the vapor on a substrate. A drug delivery cartridge includes a substrate coated with at least one of THC and CBD and configured to allow for passage of air through the cartridge to volatilize at least one of THC and CBD for inhalation by a user to induce a medicinal or therapeutic effect to the user.

Abstract: A method for producing a building panel. The method includes forming a mix including wood particles, a solvent, a binder and optionally at least one additive, wherein the binder and optionally said at least one additive are homogenously distributed in the mix by means of the solvent and wherein the binder impregnates the wood particles, drying the mix, applying the mix on a substrate, and forming a layer by applying heat and pressure to the mix.

Abstract: One aspect provides a method of forming a feedthrough device for an implantable medical device. The method includes providing a bulk insulator having a longitudinal length extending between first and second end faces, and including one or more conducting elements extending therethrough between the first and second end faces, the bulk insulator having a perimeter surface along the longitudinal length, and depositing one of a metal, metal alloy, or cermet on the perimeter surface to form a ferrule directly thereon, wherein the ferrule can be joined to other components of the implantable medical device.

Abstract: This invention relates to stents, a type of implantable medical device, with an antiproliferative coating and a prohealing luminal coating and methods of fabricating stents with an antiproliferative coating and a prohealing luminal coating.

Abstract: Disclosed herein is a ceramic article with an increased surface roughness. The ceramic article includes a ceramic body having an engagement surface and a composite porous layer disposed on the engagement surface of the ceramic body. The composite porous layer is formed from a material including multiple first ceramic particles and multiple second ceramic particles. The sintering temperature of the first ceramic particle is lower than the melting temperature of the second ceramic particle, and at least some of the second ceramic particles are disperse within the composite porous layer whereby increasing the surface roughness of the ceramic article. Methods for manufacturing such ceramic article are also disclosed.

Abstract: Various embodiments of methods for coating stents are described herein. Applying a composition including polymer component and solvent to a stent substrate followed by exposing the polymer component to a temperature equal to or greater than a Tg of the polymer component is disclosed. Repeating the applying and exposing one or more times to form a coating with the result that the solvent content of the coating after the final exposing step is at a level suitable for a finished stent is further disclosed.

Abstract: Microneedle devices are spray coated by nozzles which jet dispense dots onto the individual needles of a microneedle device from a spray nozzle which is angled with respect to the plane of the microneedle device. An angle of between 70° and 45° is preferred and can be achieved by providing the microneedle devices on a support which is inclined at 20° to 45° to the horizontal and using a spray nozzle with a vertical axis.

Abstract: A method for coating an orthopedic implant made of a titanium or titanium alloy substrate with a cobalt-chrome molybdenum alloy uses multi-arc physical vapor deposition (MA-PVD). The substrate has a first bearing surface coated with a coating made of the deposited cobalt-chromium molybdenum alloy. The bearing surface slidably receives a second bearing surface of the prosthetic joint component. The MA-PVD cobalt-chromium molybdenum alloy coating forming the first bearing surface is made up of hexagonal close packed (HCP) grains having a columnar structure with a length of about 1 ?m and a width of about 0.1 ?m with the length of each HCP grains being oriented generally perpendicular to the titanium substrate bearing surface.

Abstract: Biopolymers, and natural and bio additives are process-sensitive materials, prefer minimized steps and mild parameters. With all of prior achievements in making products from biopolymers, biopolymers have less than 1% of total polymers global usage after over a century of growth. A process is disclosed to make fibers from biopolymers and to incorporate the fibers with additives during the fiber forming steps via minimized steps and mild parameters.

Abstract: A medical implant comprises a biodegradable magnesium-based alloy of which at least a part of its surface layer comprises a magnesium carbonate. A method for the manufacture of a biocompatible, corrosion-inhibiting protective surface layer on a medical implant comprising a magnesium-based alloy, comprises: providing an implant comprising a magnesium-based alloy to be coated; placing the implant into a reactor chamber; exposing at least part of the surface of said implant to an atmosphere comprising humid carbon dioxide to produce a coating on the surface of the implant comprising a magnesium carbonate of the formula x MgCO3.y Mg(OH)2, whereby x+y=1; removing the implant from the reactor chamber; and drying the surface of the implant.

Abstract: A printing process and a printing auxiliary agent used therein are disclosed. The printing process comprises mounting a plate, applying ink, conveying an object to be printed, and impressing. The printing auxiliary agent is applied to the object to be printed before an impressing point in an optional printing station. The printing auxiliary agent includes water and/or an organic substance which is in liquid state under normal temperature and normal pressure. The use of the printing auxiliary agent is also disclosed. The printing process and the printing auxiliary agent can be used in printing of all kinds of objects to be printed, thus improving printing quality.

Abstract: In a method for making a wire guide, a fluoropolymer coating is removed from a distal section of an FP coated core wire to expose a metallic portion. A polymer coating is applied to a proximal section of the FP coated core wire such that the polymer coating overlays at least a portion of the FP coating, and to the distal section of the FP coated core wire including the exposed metal portion. The polymer coating is removed from the FP coating to form the wire guide having a proximal portion with the FP coating and a distal portion with the polymer coating. A hydrophilic coating may be applied to the distal portion over the polymer coating.

Abstract: Method for printing patterns onto three-dimensional articles mounted respectively on rotary receiving elements, including a step of generating, for each receiving element, a set of several digital images for respectively printing parts of a same pattern onto an article mounted on the receiving element, a step of printing successively parts of a same pattern onto a same article respectively from the digital images of the set associated with the receiving element for the article, the digital images of a same set having a same length, and a step of printing simultaneously several parts of distinct patterns respectively onto several articles, each simultaneous printing of a part of a pattern onto an article being performed from a digital image of the set associated with the receiving element for the article.

Abstract: A device for spraying a biological substance onto a biocompatible implant. The device includes a housing that defines a sterile chamber. A spray head is within the chamber and proximate to a first end. A first conduit is configured to direct the biological substance into the chamber through a first spray tip of the spray head. A second conduit is configured to direct an activator into the chamber through a second spray tip of the spray head. A third conduit is configured to direct compressed air to the chamber through a third spray tip of the spay head. The spray head is configured to direct a coating of the biological substance as activated by the activator to the implant seated within the chamber at a second end that is opposite to the first end.

Abstract: The present application is directed to methods and devices for altering material properties of lubricants and other cross-linkable compounds comprising organic or organometallic materials through exposure to energized gaseous species. The energized gaseous species may create reactive sites among lubricant molecules that may alter their material properties by cross-linking at least a portion of the lubricant molecules. The cross-linked lubricant may reduce the ability of the lubricant to migrate away when force is applied between lubricated sliding friction surfaces.