Abstract: A method for coating a metal wire with a thin layer of a second powdered metal. A metal flake powder having a residual surface lubricant from a prior milling operation is placed in the lubricant holding box of a conventional draw bench. The wire to be coated is passed through the metal flake powder and drawn through a conventional drawing die to provide a green-coat wire having a mechanically adherent metal flake powder coating. The green-coat wire is subsequently sintered to metallurgically bond the coating to the wire surface.

Abstract: An adherent mass of base metal powder-first liquid binder is first formed, then braze metal powder mixed therewith to form braze metal-coated mass, the latter being applied on a second liquid binder coated substrate and heated.

Abstract: This invention relates to a printing plate comprising a support bearing either(A) a layer comprising particles each containing a hydrophilic metal core and an oleophilic metal casing or(B) a layer comprising particles each containing an oleophilic metal core and a hydrophilic metal casing.

Abstract: This disclosure relates to multi-layer coatings of ceramic paint and teaches how they may be made and used. It discloses that such coatings are made by applying finely-divided material, such as -100 micron silica, to ceramic paint while it is wet, curing without fusing the paint, and then applying another coat of ceramic paint. Many uses, in places where known ceramic coatings or claddings have exhibited poor resistance, adhesion, or life, are disclosed.

Abstract: A metallic article is provided with improved resistance to high temperature environmental conditions through the inclusion of about 0.1 - 10 weight percent Hf in an article surface, such as through coating. A method for providing such a coating includes application of the Hf alone or in combination with other surface protective means. Application of Hf can occur before, during or after use of such protective means.

Abstract: A method of producing an aluminum or aluminum alloy coated steel sheet with the aid of powder method is disclosed. The method comprises preliminarily applying a zinc coating having a thickness of 0.01 to 0.3 .mu.m, preferably 0.03 to 0.3 .mu.m to a steel sheet surface, applying an aluminum powder to the zinc coated steel sheet and subjecting the coated steel sheet to steps of heating, rolling and heating again or steps of rolling, heating, rolling again and heating again.

Abstract: Substrate materials are prevented from deteriorating from exposure to intense heat by protecting the substrate with aluminum foil having at least one surface thereof roughened and subjecting said substrate to heat. The foil is capable of resisting temperatures in excess of 1,000.degree. C.

Abstract: A method of cladding copper or copper alloys to a steel substrate by an aluminothermic reduction reaction utilizing an exothermic reaction material which is principally a mixture of calcium-silicon alloy, aluminum, cupric oxide and a metal.

Abstract: The metal platelets contained in a metal-containing powder coating composition may be oriented substantially parallel to a surface coated with this composition by the process herein described. This process comprises (a) coating the metal-containing powder coating composition on the surface, (b) heating the coated surface in order to melt the metal-containing powder coating composition, (c) simultaneous with the heating step, blowing a stream of hot fluid substantially parallel to the coated surface so as to orient the metal platelets substantially parallel to the surface, and (d) cooling the coated surface after the metal platelets have become oriented substantially parallel to the surface.Contoured surfaces coated in accordance with this process have an appearance of depth similar to that obtained using a solvent system metallic paint.

Abstract: A coating process, whereby particulate material is coated onto a solid substrate surface by exposing the surface in a confined volume containing impact media mixed with the particulate material and propelling the impact media at a velocity sufficient to cause the particulate material to adhere to the surface, is improved by reducing the relative amount of certain undesirable fine particles which may be produced during the coating operation. The improvement is especially useful in a coating process wherein the impact media are small permanent magnet elements which are propelled by a moving magnetic field.

Abstract: A method of providing sintered and diffused metal coatings of finely divided metallic material on a metal base, such as a steel strip or panel, by forming a molten film of one or more higher fatty acid amides having a carbon chain length from about 8 to 18 carbon atoms on a clean surface of the metal base which is preferably heated to a temperature above the melting point of the fatty acid amide film, applying uniformly on the molten amide film an amount of a finely divided metallic material, such as powdered Monel metal or nickel, in excess of that which settles into the film and is held thereby and removing the excess metal powder after the amide film has solidified, and heat treating the metal base having the coating of amide and metal powder thereon in a non-oxidizing reducing atmosphere at a temperature and for a period sufficient to effect bonding of said finely divided metallic material with each other and with said metal base to form a uniform firmly adherent metal coating.

Abstract: A metallic article is provided with improved resistance to high temperature environmental conditions through the inclusion of about 0.1-10 weight percent Hf in an article surface, such as through coating. A method for providing such a coating includes application of the Hf alone or in combination with other surface protective means. Application of Hf can occur before, during or after use of such protective means.

Abstract: A method of forming a high-temperature abrasion-resistant hard facing or coating on a ferrous metal substrate by employing an aluminothermic reduction reaction. The resultant article has a hard facing layer containing from 2 to 8 percent boron. Hard faced composite articles made by the invented method, such as sintering machine crash decks, coke pusher ram shoes and grizzly bars are also disclosed.

Abstract: Crosslinked homopolymers and copolymers of N-vinyl-2-pyrrolidone formed by addition polymerization through ethylenically unsaturated groups are polymerized on solid, inert carriers. Heavy crosslinking is employed to render the polymers insoluble. The polymers can be made by copolymerizing, with N-vinyl-2-pyrrolidone, amides or substituted amides of unsaturated carboxylic acids, such as acrylamide, substituted and unsubstituted unsaturated carboxylic acids, such as methacrylic acid or halfacid maleates. Also included are comonomers containing basic nitrogen groups therein, such as vinyl pyridine, or alkylamino acrylates and methacrylates. The polymers are formed on inert substrates of both solid and porous types.