A pure copper powder with a Si coating formed thereon, wherein a Si adhesion amount is 5 wtppm or more and 200 wtppm or less, a C adhesion amount is 15 wtppm or more, and a weight ratio C/Si is 3 or less. An object of the present invention is to provide a pure copper powder with a Si coating formed thereon and a production method thereof, as well as an additive manufactured object using such pure copper powder capable of suppressing the partial sintering of the pure copper powder caused by the preheating thereof in additive manufacturing based on the electron beam (EB) method, and suppressing the loss of the degree of vacuum caused by carbon (C) during the molding process.

A method for manufacturing a balance spring intended to equip a balance of a horological movement, including a step of producing a blank made of a NbZr alloy including between 10 and 30 wt % Zr, a step of annealing and cooling the blank, at least one step of deforming the annealed blank in order to form a wire, wherein, before the deformation step, a step of depositing, on the blank, a layer of a ductile material chosen from copper, nickel, cupronickel, cupro-manganese, gold, silver, nickel-phosphorus NiP and nickel-boron NiB, in order to facilitate the wire shaping operation, the thickness of the ductile material layer deposited being chosen such that the ratio of the area of ductile material to the area of the alloy for a given wire cross-section is less than 1, preferably less than 0.5, and more preferably lies in the range 0.01 to 0.4.

An insert fixture for use in the manufacture of a single crystal component by a hot isostatic pressing process. The insert fixture comprising: at least a lower plate separated from an upper plate by interconnecting members. The upper plate comprises at least a slot for the insertion of the single crystal component. The lower plate features a related engagement feature for engaging with the single crystal component. The insert fixture may be cast from a ceramic material. The insert fixture may be cast from an alumina ceramic or molybdenum alloy. The interconnecting members may be made from a molybdenum alloy.

A surface of a metal substrate formed from a metal is heated, an oxide film is formed on the surface of the metal substrate, at least a portion of the oxide film is heated so as to increase a joining strength of the oxide film to the metal substrate, subsequently a synthetic resin substrate formed from a synthetic resin is joined to the oxide film, and thus a metal-resin joined body is obtained. Thereby, a metal-resin joined body having high joining strength is obtained.

Method of manufacturing zirconium alloy tubular products containing (wt. %): niobium0.9-1.7; iron0.04-0.10; oxygen0.03-0.10; siliconless than 0.02, carbonless than 0.02, and zirconiumas the base of the alloy. This includes an ingot melting by multiple vacuum arc remelting, mechanical processing of the ingot, heating, hot working of the ingot, subsequent mechanical processing for the production of tubular billets, heat treatment of the tubular billets, application of a protective coating and heating to a hot pressing temperature, hot pressing, removal of the protective coating, multi-stage cold radial forging, vacuum thermal treatment, multiple cold rolling runs with a total deformation degree of 50-80-% per run and a tubular coefficient of Q=1.0-2.7 with intermediate vacuum thermal treatment after each cold rolling operation, and final vacuum thermal treatment of the resulting tubular products carried out at the final size with subsequent final finishing operations.

A thermal barrier coated metallic article includes a platinum-group metal enriched outer layer on the article. The surface of the outer layer has a microstructure including a plurality of projections extending away from the metallic article. A thin adherent layer of oxide is formed on the outer layer of the metallic article. A ceramic coating is provided on the oxide layer on the surface on and around the projections. The ceramic coating includes a plurality of columnar ceramic grains which extend through the full thickness of the ceramic coating. The grains are arranged in clusters separated by gaps. The grains deposited around the projections are generally blocked. The projections reduce the stress in the ceramic coating near the interface with the adherent layer of oxide and also reduce the stress in the adherent layer of oxide and hence increase the working life of the thermal barrier coating system.

A system and method for heat-treating a titanium part. The system may include foil, adhesive tape, and a localized heat source. The foil may include two sheets of foil made of a material more reactive (more prone to oxidize) than the titanium part, and the localized heat source may include a heating element mostly surrounded by insulation. The method may include taping the foil to opposing sides of the titanium part, thus sealing a portion of the titanium part to be heat treated from external atmosphere. The method may also include heating and placing the localized heat source near or against the foil until heat treating is complete. A small amount of air remaining between the heated foil and the titanium part has a preferential reaction with the foil, since it is more reactive than the titanium part. This prevents oxidation of the titanium part during localized heat treating.

A process for manufacturing a bonding wire containing a core having a surface. The core contains 98.0% copper and has a cross sectional area of 75,00 to 600,000 m.sup.2 and an elastic limit RP0.2 (yield strength) of 40 to 95 N/mm.sup.2. The process involves (a) providing a copper core precursor; (b) drawing the precursor until a final diameter of the wire core is reached; and (c) annealing the drawn wire at a minimum annealing temperature of 650 to 1000 C. through its entire cross section for a minimum annealing time of 4 seconds to 2 hours.

A method for protecting a metal during an annealing process, the metal being in the form of a coil or sheets, including placing a protective film between adjacent surfaces of the wraps of the coil or of the sheets, such that the protective film separates the adjacent surfaces of the metal. The metal is subjected with the protective film to the annealing process, the protective film being resistant to temperatures between 200 C. and 360 C. A metal product is obtained by this method.