Abstract: A method for collecting ground coat and cover coat overspray material generated during the enameling of sanitary ware. The collected overspray material is blended with a fine powder, water is added to the overspray-powder blend to form a slurry, the rheology is adjusted and the resulting slurry is ready for application to the sanitary ware.

Abstract: There is disclosed a coating method involving a dispensing apparatus defining a particulate material exit opening including: (a) rotating a first applicator and an adjacent second applicator against a substrate, wherein the first applicator and the second applicator define a gap region therebetween; and (b) introducing particulate material into the gap region from the particulate material exit opening positioned at the gap region and moving a portion of the particulate material across the gap region to the substrate, wherein the rotation of the first applicator and the second applicator rubs the particulate material against the substrate.

Abstract: A coating method which is characterized in that, when the surfaces of solid particles kept flowing are spray-coated with a thermally melted wax, a two-fluid nozzle adapted to mix a thermally melted wax with a heating gas in and eject the resultant mixture from one flow passage and eject a heating gas from the other flow passage is used, the two-fluid nozzle having spray ports of a diameter of 1.5 to 5.8 mm, and the two-fluid nozzle having no needle valve. According to this method, the use of an organic solvent for melting wax is omitted, and complicated operations for pulverizing a wax and for thermally melting the wax powder after it has been deposed on solid particles are not required. This method can also prevents clogging of the nozzle, powdering of the melted wax and forming of agglomerated solid, and permits simple and easy production of sustained release preparations and preparations for masking materials of unpleasant and bitter tastes.

Abstract: Methods and apparatus for controlling plating rates of electroless plating solutions. The invention provides for continuous monitoring and replenishment of a one or more components of an electroless plating solution on a real time basis. The invention can be characterized in part by use of a quartz crystal microbalance.

Abstract: The present invention relates to a novel cost efficient luminescent composition comprising particles of a core material which have been coated with a luminescent material that is distributed in the form of a chemically homogeneous layer. The average diameter of the core particle is in the range of from about 0.5 to 20 microns, and the coating corresponds to between about 2 and 30 wt % of the total composition. One aspect the invention relates to a process for preparing the composition which comprises decomposing chelated metal luminescent compositions in solution at a relatively high pH while in the presence of dispersed core particles, thereby coating the core particles with hydrous metal oxides, recovering the coated particles, optionally washing the coated particles substantially free from soluble species, drying and calcining. In another aspect, a hydrous oxide coating is converted to a sulfide coating by treating the hydrous coating with a source of active sulfur.

Abstract: The present invention is directed to a cathode ray tube having a surface with reduced reflectivity and electrical resistivity and to a method for providing such reduced reflectivity and electrical resistivity. In the method of the invention, a solution of a soluble metallic cation moiety and a silane in an organic solvent is provided. The solution is applied to the surface of a cathode ray tube to provide a coating of the silane and the metallic moiety of the metallic compound on the surface. Thereafter, the cathode ray tube is cured at an elevated temperature for a period of time sufficient to convert the metallic cation moiety to a metal oxide in situ and to provide a metallic oxide in a matrix of siloxane.

Abstract: A process for manufacturing a substrate (12) used in a device (10) for containing a liquid crystal fluid (30) between two spaced electrodes. A plurality of spacers (35) is distributed on a first surface of a substrate by coating the first surface with an admixture of spacers dispersed in a liquid (36). The admixture is agitated during the applications step in order to maintain a uniform dispersion of the spacers in the liquid. The liquid is then evaporated from the substrate surface, leaving a plurality of spacers distributed on the substrate. Preferably, an ester alcohol dispersant is employed in the admixture in order to facilitate dispersion of the spacers in the liquid. Ultrasonics are preferred as the means of agitating the admixture during application. Ultrasonic energy can also be applied to the substrate during application of the admixture to the substrate. Ultrasonic energy can also be applied to the admixture at the point of application (44) of the admixture onto the substrate.

Abstract: A method of producing a transparent conductive film provided with supplementary metal lines, comprises the steps of forming a transparent conductive film composed mainly of indium oxide, tin oxide, or antimony oxide on a transparent substrate and forming metal lines through printing on the transparent conductive film by an intaglio or litho offset printing procedure a line pattern of metallorganic ink composed mainly of an organic noble metal containing gold, silver, or platinum and baking it for metallization.

Abstract: In a CVD apparatus, an epitaxial apparatus or an etching apparatus, the processing conditions are made uniform in a batch process by changing, with time, positions which are disposed in the direction of a gas flow in a reaction vessel and at which the optimal surface processing conditions are attained. By doing so, homogeneous and uniform films can be formed with a large substrate processing apparatus.

Abstract: The present method induces an oxidation-proof ferric phosphate coating on iron sulfide such as pyrite and marcasite. The method includes the steps of placing the pyrite to be treated in a reaction vessel and leaching the pyrite with a coating composition including water, an oxidizing agent and a phosphate coating agent. Examples of oxidizing agents include hydrogen peroxide, sodium hypochlorite, potassium hypochlorite and mixtures thereof. The phosphate coating agent may be potassium dihydrogen phosphate. In order to ensure the formation of the stable coating, the leaching is performed at a pH of substantially 5 and at a temperature of substantially 40.degree. C. Additionally, the oxidizing agent is maintained at a concentration of substantially 0.1% by weight of the coating composition while the concentration of the phosphate coating agent is maintained at at least substantially 10.sup.-4 M/l.

Abstract: Fluorinated alkoxy compounds of copper, copper-calcium, copper-strontium, and copper-barium having the structure:Cu.sub.w (OR).sub.x Y.sub.y L.sub.z ; orM.sub.a Cu.sub.b (OR).sub.c,in which 1.ltoreq.w.ltoreq.4; R is a fluorinated alkyl group; x.gtoreq.1; Y is an alkoxy or alkyl group without beta-hydrogen; y.gtoreq.0; w.ltoreq.(x+y).ltoreq.2w; L is a Lewis base; 1.ltoreq.z.ltoreq.2w; M is Ca, Sr, or Ba; and 1.ltoreq.a.ltoreq.4; 1.ltoreq.b.ltoreq.4; (b+2a).ltoreq.c.ltoreq.2(b+a), have exceptionally high volatilities, and hence low vaporization or sublimation temperatures, at 10.sup.-5 torr. They are superior precursor compounds for chemical vapor deposition of thin films on substrates under vacuum, and for sol-gel processing.