Abstract: A plant for metallization of a metal pipe obtained by upward vertical continuous casting and displaced vertically in a continuous manner, includes, along the path of the pipe, a metallization station having a passage for the pipe, a metallization enclosure (6), spray guns (11) mounted inside the enclosure on an oscillating plate (10) surrounding the path, means for supplying each gun with metallization material (12), and a device for causing oscillation of the support plate and for displacing the guns inside the enclosure with an oscillating movement, the frequency and angular amplitude of which ensure the formation of a coating of uniform thickness.

Abstract: A rim of a steering wheel is manufactured by forming a molded member of a urethane material as a part of the rim of a steering wheel; attaching a first mask member to a part of a surface of the molded member; forming a first transfer surface by hydraulic transfer onto a surface where the first mask member is not present; forming a film on the first transfer surface; removing the first mask member to reveal a surface where transfer has not occurred; performing a second hydraulic transfer onto the surface where transfer has not occurred; and cleaning the film. Thus, a clear pattern can be formed without overlapping or unsmooth matching of a pattern of a transfer film.

Abstract: A method provides for small-surface and cost-saving repair of a damaged spot or a defective paint spot on a new paint coat of a motor vehicle. The damaged spot is cleaned and, without being ground out, is laid out carefully and with a slight excess with a filler mass whose shade approaches that of the respective paint coat. Thereby, the undamaged paint surface directly next to the damaged spot remains free of filler mass. After the drying of the filler mass, the excess of the laid-out damage spot is levelled off. After the cleaning of the levelled-off damage spot, a paint is applied to the spot in a small-surface and thin manner which in its color corresponds to the finish paint coat. The spraying nozzle is radially guided centrifugally away from the damage spot. After a ventilating or drying of the applied tinted paint, a solvent-containing transparent coat is applied to the repaired spot also on a small surface.

Abstract: A method applied in a coating process is to increase the recycling rate for coating materials. For this method, a jig with a special design is employed. The jig is a base-and-cover combination type and is separable. Using such a jig would enable powdered material sprayed on an object to mostly adhere thereon. There will be a small amount of coating material adhering on the jig in this improved process, however, most of which, in fact, would adhere to the cover of the jig. At the end of the process, the cover of the jig is separated from the base of the jig, and is transported to a coating material recycling process, in which the material adhering to the cover of the jig is recycled, and the base of the jig as well as the object is conveyed to proceed with a baking process.

Abstract: To coat a surface of a medical implant such as an organ part or a synthetic prosthesis with a coating of living cells, the implant is inserted and fixed into a receiving container which is at least partially filled with a nutritive liquid medium containing the coating cells in suspension. Then the receiving container is rotated respectively about two distinct rotation axes, whereby preferably the two rotation motions are independently controllable and the two axes are substantially perpendicular to each other. Each of the two rotation motions can be a continuous rotation through 360°, or a stepwise intermittent rotation through successive rotational angle steps. The parameters of the two rotations about the two axes can be combined as needed for a particular application, for example a continuous rotation about one axis combined with a stepwise rotation about the other axis. The time period and rotational speed of each rotation can also be independently controlled.

Abstract: The present invention discloses a method of catalytic reaction operated near the optimal temperature and an apparatus for its embodiment. The catalyst bed in the apparatus consists of two parts of catalyst located respectively in the cold tube layer and the adiabatic layer. The feed gas in the cold tubes, after having exchanged heat with the reactant gases in the catalyst layer outside of the tubes, are mixed with the feed gas from the heat exchanger. While the mixed gases flow axially, radially or convectively in the catalyst layer, the gases contact successively with the catalyst in the cold tube layer and that in the adiabatic layer, and react with each other.

Abstract: A liquid coating nozzle is provided with a first block which has an inner liquid reserving section that extends in the longitudinal direction and an inner discharge section which includes a plurality of small holes formed in the longitudinal direction at a bottom portion of the liquid reserving section. The nozzle is also provided with a second block which has an inner space defining a gas reserving section that extends in the longitudinal direction outside the first block and an outer discharge section formed in the longitudinal direction at a bottom portion of the inner space. The outer discharge section includes a plurality of small holes and produces a gas flow that externally surrounds a linear or curtain-shaped liquid flow that flows downward from the small holes. This results in the formation of a thin coating film in a short time and reduces the consumption of liquid and coating nonuniformities.

Abstract: A microencapsulation and electrostatic processing (MEP) device is provided for forming microcapsules. In one embodiment, the device comprises a chamber having a filter which separates a first region in the chamber from a second region in the chamber. An aqueous solution is introduced into the first region through an inlet port, and a hydrocarbon/polymer solution is introduced into the second region through another inlet port. The filter acts to stabilize the interface and suppress mixing between the two immiscible solutions as they are being introduced into their respective regions. After the solutions have been introduced and have become quiescent, the interface is gently separated from the filter. At this point, spontaneous formation of microcapsules at the interface may begin to occur, or some fluid motion may be provided to induce microcapsule formation. In any case, the fluid shear force at the interface is limited to less than 100 dynes/cm2.

Abstract: A method of operating a fluidized bed reactor system for reacting fuel. The method includes introducing solid material particles, fluidization medium and fuel into a reactor chamber to provide a fluidized bed therewithin, reacting the fuel material within the fluidized bed to produce exhaust gas and discharging the exhaust gas from a reactor chamber outlet, introducing the exhaust gas into a particle separator and separating solid particles from the gas in the particle separator, discharging from the particle separator gas through a gas outlet and a first flow of separated solid particles through a solid particle outlet, and cooling, in a gas cooler, the gas discharged from the separator. A second flow of solid particles is branched off from the first flow of solid particles, before or after discharging the first flow of solid particles from the particle separator.

Abstract: A process for immersion coating of a substrate including positioning a substrate having a top and bottom within a coating vessel having an inner surface to define a space between the inner surface and the substrate, filling at least a portion of the space with a coating mixture; stopping the filling slightly below the top of the substrate, initiating removal of the coating mixture at a gradually increasing rate to a predetermined maximum flow rate in a short predetermined distance, and continuing removal of the coating mixture at substantially the predetermined maximum flow rate to deposit a layer of the coating mixture on the substrate.

Abstract: A collimator, in combination with a source of curing radiation and a working surface, for use in a process for curing a photosensitive resin disposed on the working surface having a machine direction and a cross-machine direction perpendicular to said machine direction, is disclosed. The collimator comprises a plurality of mutually parallel collimating elements spaced from one another in the cross-machine direction and disposed between the source of radiation and the resin. Each of the collimating elements is substantially perpendicular to the working surface, and every two of the mutually adjacent collimating elements have a machine-directional clearance and a cross-machine-directional clearance therebetween. The collimating elements and the machine direction form an acute angle therebetween such that the machine-directional clearance is greater than the cross-machine directional clearance.

Abstract: The present invention relates to a process for the preparation of organically modified aerogels, comprising a) the preparation of a silicic acid sol having a pH of ≦4.0 from an aqueous water glass solution, with the aid of at least one organic and/or inorganic acid; b) polycondensation of the resulting silicic acid sol to a SiO2 gel by the addition of a base; c) washing the gel obtained in Step b) with an organic solvent until the water content of the gel is ≦5% by weight; d) surface-silylating the gel obtained in Step c), and e) drying the surface-silylated gel obtained in Step d), characterized in that at least one acid forms difficultly soluble salts with the cations of the water glass in the silicic acid sol, and that before Step b) the resulting difficultly soluble salts are extensively precipitated and separated from the silicic acid sol.

Abstract: This invention pertains to a method for producing thermally stable multi-layer coatings and the coatings produced therefrom. The multi-layer coating is comprised of a first coating produced from hydrogen silsesquioxane having a thickness of 1.25 to 2.25 &mgr;m and a second coating comprising silicon dioxide having a thickness of at least 100 nm. The method for producing the first coating comprises applying a fillerless hydrogen silsesquioxane resin composition onto a substrate and thereafter heating the hydrogen silsesquioxane resin at a temperature of 150° C. to 500° C. for a sufficient period of time to produce a crack-free coating having a thickness of 1.25 &mgr;m to 2.25 &mgr;m. The second coating is produced by depositing, preferably by PECVD, silicon dioxide over the first coating at a thickness of at least 100 nm.

Abstract: In a method and evaporation chamber for generating a continuous vapor stream containing a compound in which gallium is present in monovalent form of a vacuum coating method for vacuum coating a substrate, an evaporation substance containing gallium in bivalent or trivalent form, is arranged together with metallic gallium in the evaporation chamber, that is closed on all sides and has a vapor exit opening. The evaporation substance is evaporated, and the vapor is brought into contact with the metallic gallium, causing the bivalent or trivalent gallium to be reduced to monovalent gallium in a vapor stream which subsequently exits in the direction of the substrate via the vapor exit opening.

Abstract: A method for making strontium-containing metal-oxide ceramic thin films from a precursor liquid by mixing a strontium neo-pentoxide dissolved in an amine solvent and at least one metal alkoxide dissolved in a solvent, said at least one metal alkoxide selected from the group consisting of alkoxides of calcium, barium, bismuth, cadmium, lead, titanium, tantalum, hafnium, tungsten, niobium, zirconium, yttrium, lanthanum, antimony, chromium and thallium, depositing a thin film of the precursor liquid on a substrate, and heating the thin film in the presence of oxygen at between 550 and 700° C.

Abstract: In forming a resist film by supplying a resist liquid onto a surface of an LCD substrate loaded in a rotation cup, a coating liquid is coated on the surface of the substrate by spraying the resist liquid onto the surface thereof while not rotating the substrate to thus form the coating film on the overall surface of the substrate, then the substrate is sealed into the rotation cup by closing the processing vessel by a lid member, and then a film thickness of the coating film is regulated by rotating the rotation cup and the substrate.

Abstract: A process for producing, on a metallic substrate, a geometric metal structure having a precise contour, including the steps of: solder coating a solder paste onto the substrate by screen printing to create the geometric metal structure, the solder paste comprising an organic binder system, and 80 to 95 weight % of a mixture of a nickel-based solder and a pulverulent alloy of nickel with at least one member selected from the group consisting of chromium, molybdenum, tungsten, manganese and iron, provided as a higher-melting metallic filler, wherein a weight ratio of solder to filler is 2-6:1, an average grain size of the solder is between 10 and 50 &mgr;m, and a grain size ratio of solder to filler, relative to the average grain size is from 0.5-2.5:1; drying the structure; decomposing the organic binder system present in the solder paste, without leaving a reside, by a heat treatment; and raising the temperature until the resulting solder material liquifies.

Abstract: The present invention concerns a process for the conversion of an olefinic C4 cut to polyisobutene and to propylene by metathesis. The process comprises three successive steps: (1) selective hydrogenation of diolefins with simultaneous isomerisation of 1-butene to 2-butenes, (2) polymerisation of the isobutene, including optional prior extraction of the isobutene, (3) metathesis of 2-butene with ethylene. Part or all of the C4 cut may originate from the metathesis of an olefinic C5 cut with ethylene after hydroisomerisation of the C5 cut. Application to C4 and C5 steam cracking cuts.

Abstract: A method for manufacturing a thin-film solar cell substrate of group IB, IIIB and VIB elements of the Periodic Table, by using an apparatus for depositing selenium (Se) on the thin-film solar cell substrate. The apparatus has a base with gas inlet and outlet pipes. A bell jar is placed on top of the base with an O-ring interposed between them. A thin-film solar cell precursor and Se powder are placed in a recess formed in a lower heating jig, and the lower heating jig is positioned on the base. An upper heating jig is placed on top of the lower heating jig. The upper heating jig is vertically moved by a vertically actuating mechanism. The upper and lower heating jigs are heated under vacuum so as to diffuse Se to the thin-film solar cells, whereby a CuInSe2 alloy film is formed.

Abstract: A cleaning sheet with a tacky surface coating is used to clean feed rollers in copying machines or similar equipment and similarly-coated cloths are used for the removal of particles from other surfaces to be cleaned. The cleaning articles are made by printing the tacky material on sheet material such as paper or cloth. Relatively thick layers of tacky material are applied quickly and economically by the use of a multi-stage printing press which builds up a thick layer from a plurality of thin layers.