Abstract: A process and a device for coating the surface of strip material, especially non-ferrous metal and steel strip, with a metal coating, wherein the material is conducted without reversal of direction through a container holding the molten coating material. The container has a passage duct below the level of the melting bath, in which induction currents are induced by an electromagnetic travelling field and produce, in interaction with the electromagnetic travelling field, an electromagnetic force for restraining the coating material. In order to stabilize the melt in the passage duct as well as in the container, and in order to attain, to a large extent, a counterbalance between hydrostatic and electromagnetic forces, a constant direct or alternating current field is directed opposite to the travelling field in the area near the container, damping the movement in the coating material.

Abstract: A coating apparatus and method for applying a coating to a workpiece, comprising:a vessel to contain molten metal;an induction coil disposed about said vessel; and,temperature regulation means;wherein, in use, said induction coil induces a magnetic field within said vessel such that a meniscus of molten metal is formed above said vessel, through which said workpiece is passed for coating, whilst said temperature regulation means regulates temperature of said molten metal and/or controls the meniscus height of said meniscus.

Abstract: The substrate (10) is placed in an enclosure (12) and is heated so as to establish therein a temperature gradient such that the substrate has a higher temperature in portions that are remote from its exposed surfaces than at its exposed surfaces. A reaction gas constituting a precursor for the material to be infiltrated is admitted into the enclosure, with formation of the material being enhanced in those portions of the substrate that are at higher temperature. At the beginning of the infiltration process, and at least during the major portion thereof, substrate heating is controlled in such a manner as to maintain the temperature of its exposed surfaces at a value that is no greater than the minimum temperature for the reaction gas to deposit the material that is to be infiltrated, while portions of the substrate that are remote from its exposed surfaces are at a temperature that is greater than the minimum temperature for deposition.

Abstract: A raw material formed by a mixture of, for example, soybean protein and water, is extruded by an extruder. Then, high-frequency electroconductive heating is performed by placing the material between a pair of electrodes and applying a voltage between the electrodes. As a result, a biodegradable molded article is obtained. In this method, biodegradable molded articles having a uniform structure are manufactured in a short period of time without increasing the cost of equipment or adversely affecting the working environment.

Abstract: A positive metallization process for metallizing a plastic composite piece containing a polymer and grains of one or more oxides, includes three successive steps. The first step consists of irradiating the plastic piece surface to be metallized with a light beam emitted by an excimer laser. The second step consists of immersing the irradiated piece into at least one autocatalytic bath containing metal ions and without palladium. This immersion induces the deposit of the metal ions onto the irradiated surface to form a metal film onto the surface. The third step consists of thermally processing the metallized plastic piece to induce the diffusion of the deposited metal into the plastic piece.

Abstract: Aircraft brakes are refurbished by a rapid chemical vapor deposition method utilizing a liquid carbon-precursor as a carbon source for carbon densification. Inductive and resistive heating means are utilized to carry out the method.

Abstract: A process for preparing a coated substrate in which mist particles are created from a dilute liquid, the mist particles are contacted with a pressurized carrier gas and contacted with radio frequency energy while being heated to form a vapor, and the vapor is then deposited onto a substrate. The coated substrate is then heated to a temperature of 450 to 1,400 degrees centigrade for at least ten minutes.

Abstract: A chromium aluminum and/or silicon diffusion coating is applied to a high temperature substrate such as a boiler tube by induction heating at a predetermined frequency of a known coating preparation such as pack cementation of the coating on the substrate to provide an improved coating of predetermined thickness with increased corrosion resistance.

Abstract: The present invention provides a novel process and apparatus for coating electrically conductive substrate with alkali metal by vacuum metallizing. Novel methods and apparatus are provided to protect the alkali metal surface against atmospheric degradation. The alkali metal coated substrate prepared according to this invention can be used as an anode in electrochemical batteries.

Abstract: A process for producing an electrode plate for an electrolytic condenser. According to the process, a fixed or movable substrate is introduced into a chamber, and an oxidizing atmosphere and vaporized aluminum are also introduced into the chamber, under a pressure of 0.8 to 2.3 Pa in a deposit zone. A coating of grain agglomerates comprising a porous matrix of aluminum oxide containing metallic aluminum crystallites arranged randomly within the grains is deposited onto at least one surface of the substrate by condensation from the atmosphere at a rate between 0.03 and 0.2 micrometers per second. The coated substrate is then removed from the chamber and subjected to a chemical or electrochemical stabilization treatment.

Abstract: An evaporation method is described for the deposition of various materials that comprise a plurality of elements, such as metal alloys, ceramics and certain inorganic-metallic compounds. The method involves the evaporation of a material comprising a plurality of elements through a molten pool of another material. The material which is to be evaporated is placed in a suitable evaporation means under the material which is to be used to form the molten pool. By applying heat sufficient to melt both materials, the material to be evaporated is transported through the molten pool of the other material. The materials are selected so that the material to be evaporated is preferentially evaporated with respect to the other material. This method produces a vapor stream and condensates that have compositions which closely resemble the compositions of the material from which they were deposited. Further, the condensate may be collected using the method of this invention at high rates on the order of 0.

Abstract: This invention relates to an improved process for the thermal dehydrogenation of polysilicon granules in a fluidized bed reactor, the improvement which comprises introducing a varying electromagnetic field into the reactor whereby reactor walls are coated with silicon during the dehydrogenation.

Abstract: A method and apparatus is disclosed for curing metal particles into continuous metal conductors on a nonconducting substrate. The apparatus includes a generator for supplying radio frequency energy through an impedance matching circuit to a coil positioned proximate to the substrate. The coil and substrate are placed in a chamber which is evacuated prior to curing and then pressurized with nitrogen gas. The electromagnetic flux lines generate eddy currents in the particles which heat them until at least some melt, thereby converting the metal particles into continuous conductors.

Abstract: This invention relates to a method of coating an inner surface of a funnel of a cathode ray tube with lining graphite acting as an inner conductive film between a screen portion and a high voltage side, i.e., an electron gun of the cathode ray tube. According to the method, the lining graphite is coated on the entire inner surface of the funnel with the exception of only an area of the portion of the surface, on which a getter or a frittable getter is located.

Abstract: Porous solid bodies, especially carbon bodies, are densified by chemical vapor deposition by establishing a thermal gradient within the body, thermally decomposing a gaseous precursor so deposit an electrically and thermally conductive deposit (e.g. carbon) within the body, and shifting the thermal gradient toward the lower temperature zone as deposition proceeds, by means of induction heating.

Abstract: The present invention includes a thermoplastic receptor for radio signals having a frequency of about 1 to 100 MHz, the receptor having a dissipation factor of about 0.1 or greater. Also disclosed are heat meltable adhesives, film compositions, and composites comprising a thermoplastic and a thermoplastic receptor. The present invention also includes a method of applying a thermoplastic composition by applying radio signals having a frequency of about 1 to 100 MHz to a composition comprising a thermoplastic composition and a receptor.

Abstract: A method for applying a coating solution onto a substrate to form a coated portion thereon includes a dipping device for dipping and removing the substrate into and from the coating solution; and a heating device for inductively heating the substrate while the dipping device removes the substrate from the coating solution to uniformly dry an inner surface of the coated portion, the inner surface being adjacent to the substrate. The method advantageously may include a drying device for blowing hot gases onto the coated portion of the substrate while the dipping device removes the substrate from the coating solution.

Abstract: An amorphous thin film as a solid lubricant having a low coefficient of friction. It is composed of silicon (Si), oxygen (O), carbon (C), and hydrogen (H), and has a composition defined by the formula: Si.sub.x (O.sub.m, C.sub.n, H.sub.l-m-n).sub.1-x where, x=0.03-0.02, m=0.05-0.5, =0.1-0.9, and 0.6.ltoreq.m+n.ltoreq.0.95. This thin film exhibits extremely low friction stably from the beginning of sliding. It has superior wear resistance owing to its high hardness.

Abstract: In a plasma-enhanced chemical vapor deposition method, in order to achieve greater space for positioning workpieces to be coated simultaneously and essentially identically on all sides, the workpiece are positioned at a distance from one electrode on the basis of a coating rate gradient.

Abstract: A glass vacuum flask coating method comprising a step to put a metal material in the gap between an inner flask and an outer flask before said inner and outer flasks being formed into a blank for a glass vacuum flask, after the process of exhausting and tipping-off said metal material being heated by a magnetic field generated from an inductance coil into a metal vapor inside said gap, permitting said metal vapor to be adhered to the glass surface inside said gap, forming into a metal reflecting film thereon.

Abstract: Apparatus for internally coating a pipe, comprising electric heating means heating a pipe as it is internally spray coated, a plurality of first rollers mounted on a first rotatable shaft having an inlet end proximate the heating means and an outlet end spaced from the heating means, and a plurality of second rollers mounted on a second rotatable shaft parallel to the first shaft and having an inlet end adjacent the heating means. Each second roller is spaced from and adjacent to a corresponding first roller in a paired relationship to thereby define a nesting groove located above the gap between each set of paired rollers. Motive means rotates the shafts and the mounted rollers to rotate the pipe within the nesting grooves of adjacent pairs of rollers. Axial advancing means longitudinally advances the pipe through the heating means and sequentially along the nesting grooves of adjacent pairs of rollers.

Abstract: A method for depositing a layer of additional material onto an electrically conductive thin layer structure preferably by means of the thermally induced reason of a compound in the vapor state, in which the thin structure is heated by an electric current passed through it. The method is especially suitable for reinforcing metallic conductor structures which have been made on a substrate by a direct-writing-laser chemical vapor deposition method, for example, fine tungsten wires.