Abstract: A process for treating a surface coating of a bulk metal part, comprises the steps of placing, in a cavity, at least one what is called metal part including what is called a surface coating that is able to absorb microwaves at the frequency ?0, the cavity being surrounded by one or a plurality of first susceptors the dimensions, material and arrangement of which are configured to screen the microwaves at the frequency ?0, in the vicinity of each the metal part, and in emitting the microwaves at the frequency ?0 into the cavity.

Abstract: A method of inspecting a degree of air bubbles which are mixed into an ultraviolet curable resin for an optical fiber having viscosity of 1.2 Pa·s to 6.2 Pa·s at a temperature of 25±5° C., is performed in such a manner that the ultraviolet curable resin for an optical fiber which is an inspecting target is put into a sealed apparatus, then the inside of the sealed apparatus is decompressed to be a predetermined pressure, and then the sealed apparatus is left to stand as it is for a predetermined time. If a ratio of the volume expansion of the ultraviolet curable resin for an optical fiber is equal to or less than a predetermined threshold, the ultraviolet curable resin for an optical fiber is recognized as an accepted product.

Abstract: A method of contactlessly advancing a substrate (140), comprising: —providing a process tunnel (102), extending in a longitudinal direction and bounded by at least a first (120) and a second (134) wall; —providing first and second gas bearings (124, 134) by providing substantially laterally flowing gas alongside the first and second walls respectively; —bringing about a first longitudinal division of the process tunnel into a plurality of pressure segments (116), wherein the gas bearings (124, 34) in a pressure segment have an average gas pressure that is different from an average gas pressure of the gas bearings in an adjacent pressure segment; —providing a substrate (140) in between the first wall (120) and the second wall (130); and 1—allowing differences in average gas pressure between adjacent pressure segments (116) to drive the substrate along the longitudinal direction of the process tunnel.

Abstract: A CVD process for depositing a silica coating is provided. The process includes providing a float glass ribbon in a float glass manufacturing process. The process also includes forming a gaseous mixture including a silane compound, oxygen, a fluorine-containing compound, and a radical scavenger. The gaseous mixture is directed toward and along the float glass ribbon and is reacted over the float glass ribbon to form the silica coating thereon. The silica coating comprises silicon dioxide.

Abstract: Provided is a lubricity-imparting agent that can impart durable lubricity (in particular, lubricity at the time of wetting) to a substrate. It has been found that a lubricity-imparting agent including a copolymer containing a constitutional unit (A) based on 2-methacryloyloxyethyl phosphorylcholine and a constitutional unit (B) based on a photoreactive functional group-containing monomer, or a copolymer containing a constitutional unit (A) based on 2-methacryloyloxyethyl phosphorylcholine, a constitutional unit (B) based on a photoreactive functional group-containing monomer, and a constitutional unit (C) based on a hydrophobic group-containing monomer can impart durable lubricity to a substrate surface through a simple approach called photoirradiation.

Abstract: A method of repairing a defectively manufactured multi-layer component having a substrate material and a primer layer includes applying, to the primer layer, a solvent that causes the primer layer to swell to form a swelled primer layer. The method also includes abrading away the swelled primer layer from the multi-layer component and rebuilding the multi-layer component by forming a new primer layer on the substrate material.

Abstract: A nanoporous metal can be formed by projecting laser patterns using a spatial light modulator (SLM) onto a gold/silver alloy film immersed in diluted nitric acid solutions. Heat accumulation induced by the photothermal effect enables localized dealloying in dilute nitric acid. NPG micropatterns can be formed at the irradiated spots while the surrounding alloy remains intact.

Abstract: An ink composition for photonic sintering and a method or producing the ink composition, the ink composition includes: metal nanoparticles comprising a first metal satisfying interaction formula 1; an organic non-aqueous binder; and a non-aqueous solvent. Interaction formula 1 is A1/A2?0.2, where A1/A2 is a ratio, in the x-ray photoelectron spectrum on the surface of the first metal, in which first metal 2p3/2 peak area of the oxide of the first metal (A1) is divided by first metal 2p3/2 peak area of the first metal (A2).

Abstract: The invention relates to a method for treating surfaces of an electronic card (4) by means of a plasma torch (1), said card (4) comprising a plurality of electronic components (C1a, C1b, C1c, C2a, C2b, C3a) and a plurality of surfaces to be treated, arranged at various heights relative to a reference plane (Ref) of the electronic card (4). At least one region to be treated (Zn) containing the surfaces to be treated is determined, strata (S1, S2, S3) which are parallel to said reference plane (Ref) and each contain at least one surface to be treated are determined, and then a torch movement path is generated such that: the surfaces are treated, stratum by stratum; for each stratum, the torch is exclusively moved in parallel with the reference plane (Ref); during the projection of the plasma flow (2), each treated surface is exclusively placed in the ideal working zone (Pt).

Abstract: Plasmonically enhanced electric fields are used to deposit particles at selected locations through decomposition or electron transfer reactions with precursor molecules in gas or liquid phase. The location of the enhanced electric fields is controlled through a combination of plasmonic substrate structure shape, material, incident light wavelength and polarization. The particles are deposited at designated locations only, whereby no deposition occurs at locations lacking enhanced electric fields. Many reaction variables can be used to change the rate of particle deposition such as precursor molecules, exposure time, precursor concentration, and temperature making for a highly customizable reaction space.

Abstract: A method of controlling application of material onto a substrate includes ejecting atomized droplets from an array of micro-applicators while the array of micro-applicators cyclically moves about at least one axis. The atomized droplets from each of the plurality of micro-applicators overlap with atomized droplets from adjacent micro-applicators and a diffuse overlap of deposited atomized droplets from adjacent micro-applicators is provided on a surface of the substrate. The array of micro-applicators cyclically rotates back and forth around the at least one axis and/or moves back and forth parallel to the at least one axis. For example, the at least one axis can be a central axis of the array of micro-applicators, a length axis of the array of micro-applicators, a width axis of the array of micro-applicators, and the like. Also, the array of micro-applicators can be part of an ultrasonic material applicator used to paint vehicles.

Abstract: The present invention is in the field of processes for the generation of thin inorganic films on substrates, in particular atomic layer deposition processes. The present invention relates to a process comprising bringing a compound of general formula (I) into the gaseous or aerosol state and depositing the compound of general formula (I) from the gaseous or aerosol state onto a solid substrate, wherein R1, R2, R3, and R4 are independent of each other an alkyl group, an aryl group or a trialkylsilyl group, M is Mn, Ni or Co, X is a ligand which coordinates M, wherein at least one X is a neutrally charged ligand, m is 1, 2 or 3 and n is at least 1 wherein the molecular weight of the compound of general formula (I) is up to 1000 g/mol.

Abstract: A method is disclosed for fabricating a ribbon yarn, the method including: spreading the yarn such that not more than five filaments are lying over one another, fixing the yarn by forming a matrix of one or more fixatives, winding the fixed yarn, wherein the fixative or fixatives are selected from a group consisting of copolyamides, copolyesters and silicones and also mixtures or blends thereof. Also described is the ribbon yarn and the application of the ribbon yarns for airbag fabrics, as a tire reinforcement and in textile construction.

Abstract: A method of manufacturing a dew formation preventing member having a super water repellent surface of the present invention comprises the steps of: mixing a particular paint and polytetrafluorethylene at a predetermined ratio; particulate painting the mixed paint on a substrate surface; and heat treating the particulate painted substrate. A method of manufacturing a dew formation preventing member having a super water repellent surface according to another aspect of the present invention comprises the steps of: immersing a substrate in an electro deposition paint, and applying a direct current to conduct electro deposition painting; heat treating the substrate that has undergone the electro deposition painting; and plasma treating the surface of the substrate that has undergone the electro deposition painting.

Abstract: A method performed by a film deposition apparatus includes supplying a first reaction gas, which is adsorbable to hydroxyl groups, to a surface of a substrate and causing the first reaction gas to be adsorbed onto the surface of the substrate; supplying a second reaction gas to the substrate and causing the second reaction gas to react with the first reaction gas adsorbed onto the surface of the substrate to form a reaction product on the substrate; supplying an activated third reaction gas to the substrate to modify a surface of the reaction product; and supplying a fourth reaction gas including a hydrogen-containing gas to at least a partial area of the modified surface of the reaction product to form hydroxyl groups on at least the partial area.

Abstract: A method of controlling application of material onto a substrate is provided. The method includes ejecting an ultraviolet (UV) curable material through a plurality of micro-applicators in the form of atomized droplets. At least one UV light source is positioned adjacent to the plurality of micro-applicators and the atomized droplets are irradiated with UV light by the at least one UV light source and curing of the atomized droplets is initiated. The atomized droplets are deposited onto a surface of the substrate and a UV cured coating on the surface is formed thereon. The UV curable material may include a photolatent base catalyst such that the atomized droplets deposited onto the surface continue to cure after being irradiated with the at least one UV light source. The at least one UV light source can include a UV light ring, a UV light emitting diode, and the like.

Abstract: The present invention relates to a continuous roll-to-roll process for improving the water tolerance of bio-based polymers, in particular cellulose nanofibrils (CNF) films. Furthermore, the invention provides a method, which combines surface modification/functionalization for improving water stability and wet strength, UV/Ozone treatment, corona treatment or plasma activation for purifying and activating the surface and thus increasing the reaction efficiency, and further hydrophobization of the surface of CNF film.

Abstract: Systems and methods are disclosed for improving optical spectrum fidelity of an integrated computational element fabricated on a substrate. The integrated computational element is configured, upon completion, to process an optical spectrum representing a chemical constituent of a production fluid from a wellbore. The systems and methods measure in situ a thickness, a complex index of refraction, or both of a film formed during fabrication to generate a predicted optical spectrum. The predicted optical spectrum is compared to a target optical spectrum. Revisions to a design of the integrated computational element are conducted in situ to improve optical spectrum fidelity relative to the target optical spectrum. Other systems and methods are presented.

Abstract: A method of applying a surface treatment on a contoured surface includes attaching a surface treatment repair assembly to the contoured surface that includes a robotic unit and an array of applicator heads, each applicator head being configured to apply a repair treatment to the contoured surface. A location of the surface treatment relative to the surface treatment repair assembly is determined using an optical sensor configured to scan the contoured surface and generate an image data set of the contoured surface. A damaged portion of the surface treatment is identified and a target area for surface treatment repair is defined based on comparing the image data set generated by the optical sensor and a pristine image data set. The surface treatment repair assembly is positioned with the array of applicator heads adjacent to the surface treatment, and each applicator head is selectively operated to repair the surface treatment.

Abstract: Methods comprise loading an article comprising a ceramic coating into an induction heating system or a microwave heating system and heat treating the ceramic coating using the microwave heating system or the induction heating system within a temperature range for a duration of about 1-15 minutes.