Abstract: A casting system, apparatus, and method. The casting system can include an energy source and a hearth, which can have a tapered cavity. The tapered cavity can have a first end portion and a second end portion, and the tapered cavity can narrow between the first and second end portions. Further, the tapered cavity can have an inlet at the first end portion that defines an inlet capacity, and one or more outlets at the second end portion that define an outlet capacity. Where the cavity has a single outlet, the outlet capacity can be less than the inlet capacity. Where the cavity has multiple outlets, the combined outlet capacity can match the inlet capacity. Further, the cross-sectional area of the tapered cavity near the inlet can be similar to the cross-sectional area of the inlet.

Abstract: The present invention is a method for manufacturing a titanium ingot (30), the method being characterized by comprising: a step of melting a titanium alloy for a predetermined time by cold crucible induction melting (CCIM); a step of supplying molten titanium (6) to a cold hearth (10), and separating high density inclusions (HDIs) (8) by precipitation in the cold hearth (10) while spraying a plasma jet or an electron beam onto the bath surface of the molten titanium (6); and a step of supplying a molten titanium starting material from which the HDIs (8) are separated by precipitation to a mold (20) to obtain the titanium ingot.

Abstract: The present invention is a method for manufacturing a titanium ingot (30), the method being characterized by comprising: a step of melting a titanium alloy for a predetermined time by cold crucible induction melting (CCIM); a step of supplying molten titanium (6) to a cold hearth (10), and separating high density inclusions (HDIs)(8) by precipitation in the cold hearth (10) while spraying a plasma jet or an electron beam onto the bath surface of the molten titanium (6); and a step of supplying a molten titanium starting material from which the HDIs (8) are separated by precipitation to a mold (20) to obtain the titanium ingot.

Abstract: A combined furnace system for fire refining red impure copper, comprising in order: a shaft furnace (2) for smelting red impure copper raw material into red impure copper liquid; a red impure copper liquid groove (4); at least one rotary furnace (5) for refining and producing refined copper liquid by means of oxidation reduction; a refined copper liquid groove (6). The combined furnace system is characterized in that the system comprises a tilting furnace (3) between the shaft furnace (2) and the red impure copper liquid groove (4) for removing slag from red impure copper liquid having slag. The invention thereby provides a combined furnace system that easily removes slag, has a smooth, unobstructed red impure copper liquid groove, and smelts and refines with stable production efficiency.

Abstract: The present invention arranges the part for removing impurities from a molten metal containing a filter holder constituted of a structure containing an organic fiber, an inorganic fiber and thermosetting resin and a heat-resistant filter in the runner of the mold.

Abstract: A nucleated casting apparatus including an atomizing nozzle configured to produce a droplet spray of a metallic material, a mold configured to receive the droplet spray and form a preform therein, and a gas injector which can limit, and possibly prevent, overspray from accumulating on the mold. The gas injector can be configured to produce a gas flow which can impinge on the droplet spray to redirect at least a portion of the droplet spray away from a side wall of the mold. In various embodiments, the droplet spray may be directed by the atomizing nozzle in a generally downward direction and the gas flow may be directed in a generally upward direction such that the gas flow circumscribes the perimeter of the mold.

Abstract: A nucleated casting apparatus including an atomizing nozzle configured to produce a droplet spray of a metallic material, a mold configured to receive the droplet spray and form a preform therein, and a gas injector which can limit, and possibly prevent, overspray from accumulating on the mold. The gas injector can be configured to produce a gas flow which can impinge on the droplet spray to redirect at least a portion of the droplet spray away from a side wall of the mold. In various embodiments, the droplet spray may be directed by the atomizing nozzle in a generally downward direction and the gas flow may be directed in a generally upward direction such that the gas flow circumscribes the perimeter of the mold.

Abstract: A process for producing a copper alloy material from a copper alloy of a precipitation reinforced type, which contains a process to perform individually a dissolution of a pure copper and a dissolution of an additional element or a mother alloy containing the same, comprises the steps of: melting an element and/or a mother alloy at a same time, that is selected from a Ni, a Co, an Si, a Ni—Cu mother alloy, a Co—Cu mother alloy, an Si—Cu mother alloy, a Ni—Si—Cu mother alloy, and a Co—Si—Cu mother alloy with combining therebetween, and melting thereof with an assistance of a generation of a heat of mixing, in a case of forming a high density melt containing at least either one of the Ni or the Co, and the Si, as high density thereof; forming the high density melt as a content of the Ni to be 80 mass % at maximum; and forming an alloy molten metal having a predetermined component and concentration, by adding the melt into a pure copper molten metal to be supplied from another melting furnace.

Abstract: A furnace, a crucible for such a furnace, and a method for preparing and using the crucible. The crucible is formed of a nonmetallic refractory material to have side walls, a base wall, an opening in the base wall, and an interior cavity. A particulate refractory material is packed beneath the base wall and around the side walls of the crucible, and a gas diffuser is positioned beneath the crucible. A solid sintered porous barrier is formed within the opening in the base wall of the crucible and between the gas diffuser and the interior cavity of the crucible. The porous barrier is sufficiently porous to enable a gas exiting the diffuser to flow therethrough and enter the interior cavity of the crucible.

Abstract: A nucleated casting apparatus including an atomizing nozzle configured to produce a droplet spray of a metallic material, a mold configured to receive the droplet spray and form a preform therein, and a gas injector which can limit, and possibly prevent, overspray from accumulating on the mold. The gas injector can be configured to produce a gas flow which can impinge on the droplet spray to redirect at least a portion of the droplet spray away from a side wall of the mold. In various embodiments, the droplet spray may be directed by the atomizing nozzle in a generally downward direction and the gas flow may be directed in a generally upward direction such that the gas flow circumscribes the perimeter of the mold.

Abstract: A process for recycling composite materials includes the steps of feeding a quantity of composite material composed of at least one polymer and aluminum into at least one first reactor; heating the composite material in a non-oxidizing environment at a temperature sufficient to volatilize the at least one polymer and form a hydrocarbon by-product and aluminum in the at least one first reactor; feeding the aluminum free of the at least one polymer into a second reactor; and heating the aluminum in a non-oxidizing environment at a temperature sufficient to melt the aluminum in the second reactor.

Abstract: An apparatus and a method for the casting of metals comprising the steps of: indexing a mould (3) in series on a rotating carousel (2) to a pouring station (2.1), skimming station (2.2) and a mould transfer station (2.3); casting molten metal into the mould at the pouring station (2.1); skimming dross from the molten metal at the skimming station (2.2); transferring the mould (3) containing molten metal from the mould transfer station (2.3) to a cooling section (5) and replacing it at the mould transfer station (2.3) with an empty mould; transferring a cooled mould containing a solidified metal ingot (10) from the cooling section (5) to a demoulding station (7) remote from the rotating carousel (2); removing the solidified ingot (10) from the mould (3); removing the pin/hook members (11) from the ingot (10); returning the pin/hook members (11) to the empty mould (3); returning the empty mould (3) to the mould transfer station (2.3); and transferring the ingot (10) to the further processing.

Abstract: An apparatus and a method for the casting of metals comprising the steps of: indexing a mould (3) in series on a rotating carousel (2) to a pouring station (2.1), skimming station (2.2) and a mould transfer station (2.3) casting molten metal into the mould at the pouring station (2.1); skimming dross from the molten metal at the skimming station (2.2); transferring the mould (3) containing molten metal from the mould transfer station (2.3) to a cooling section (5) and replacing it at the mould transfer station (2.3) with an empty mould; transferring a cooled mould containing a solidified metal ingot (10) from the cooling section (5) to a demoulding station (7) remote from the rotating carousel (2); removing the solidified ingot (10) from the mould (3); removing the pin/hook members (11) from then ingot (10); returning the pin/hook members (11) to the empty mould (3); returning the empty mould (3) to the mould transfer station (2.3); and transferring the ingot (10) to the further processing.

Abstract: A consumable electrode feed system for a refining system provides consumable electrodes to a refining system. The consumable electrode feed system comprises a side feed device that feeds consumable electrodes to a refining system in a first direction; a refining feed device that feeds consumable electrodes to a refining system in a second direction, in which the second direction being generally orthogonal to the first direction; and a connection system for connecting fed consumable electrodes to each other. The consumable electrode feed system allows for a predetermined amount of a consumable electrode to be refined in the refining system, and can position another consumable electrode above a previously fed consumable electrode. The connecting system then can connect a fed consumable electrode to a previously fed consumable electrode thus avoiding refining operation.

Abstract: A method and a plant for manufacturing steel in an electric steel furnace wherein the electric steel furnace is charged with at most 70% scrap and with at most 60% liquid pig iron obtained in a mini-blast furnace, and optionally with additional iron carriers, and wherein the mini-blast furnace is operated for producing the pig iron with iron pellets and/or coarse or lump ore and coke as well as coal. The melting process in the electric steel furnace is operated using electrical energy and by simultaneously using oxygen and injected coal. The plant for carrying out the method is composed of a mini-blast furnace and an electric steel furnace.

Abstract: Integrated plant (10) to convert a metallic charge continuously into semi-finished products such as billets, blooms, slabs, bars or ingots, which comprises in close cooperation a chamber (14) to pre-heat a controlled metallic charge, the chamber (14) including a burner (15) and a terminal feeder (16) feeding an electric furnace (17) with a controlled flow, and comprises also the electric furnace (17), a continuously functioning transformer (26), a multifunction manipulator (20) with two independent arms able to rotate circumferentially and to move vertically to handle two ladles (18) at one and the same time at least between a tapping station of the electric furnace (17) and a casting and tapping station (21), and at least one casting and tapping station (21) served by a tundish feeding liquid metal continuously, a station to refine the liquid metal in the ladle (18) being located between the tapping station of the furnace (17) and the tapping and casting station (21).

Abstract: Metals and/or metallic compounds are condensed from a vapor in a reaction vessel into a condenser, the condensate initially solidifying to block an outlet at the bottom of condenser; subsequent operation of heating stages from the top to the bottom of the condenser to melt the solidified condensate ensures that, as the outlet becomes unblocked, the whole melt flows into a mould.

Abstract: The invention relates to a device for the treatment of a stream of aluminum or magnesium-based liquid metal or alloy during its passage, comprising a ladle formed by an external metal casing, a refractory lining, a channel for the admission of the crude liquid metal at the rear, a nozzle for the casting of the treated liquid metal at the front, at least one internal partition leaving, with the bottom of the ladle, a space for the circulation of the liquid metal and defining a first rear compartment and at least one second front compartment opening into the casting nozzle. The ladle is fixed on a supporting cradle connected to an articulated frame relative to which the said cradle can rock forwards about a first horizontal axis passing through the casting nozzle, the articulated frame itself being connected to a fixed frame relative to which it can rock about the second horizontal axis. The first horizontal axis is approximately perpendicular to the stream of liquid metal.

Abstract: A gas sparging apparatus particularly useful with molten aluminum includes a sparging box having an inlet, an outlet for the metal with a plurality of baffles arranged to alternately project from the top and bottom of the box into the molten metal stream. The bottom of the box also includes a graphite block connected with a manifold structure. The graphite block is gas permeable so that a sparging or cleaning gas may flow through the block into the molten metal stream to purify the metal.

Abstract: An aluminum wire feeder consisting of a flexible conduit and positioning tube are connected to a removable shroud by a tube holder. A feed mechanism provides a continuous source of aluminum wire for feeding the same to a continuous casting mold, only during shrouding conditions.

Abstract: A process for sparging molten metal comprises passing gas bubbles upwardly through a series of spaced nozzles arranged in a trough or furnace, the nozzles being arranged to prevent lateral spread of emergent bubbles so as to hold down the bubble size to a controlled size and thus increase the surface area/volume relationship to a desired value.The apparatus employed preferably is embodied in a refractory plate having a series of spaced protrusions or ribs on the upper face. Spaced gas orifices are formed in the protrusions or ribs. The lateral spread of the bubbles is checked or hindered when the gas/metal interface of growing bubbles reaches the sides of the protrusions or ribs.

Abstract: A metal melting furnace comprising a furnace housing, which includes a means for heating the interior thereof, and a hearth for holding metal to be melted wherein the hearth and the furnace housing are mounted for mutual relative movement between a position wherein the hearth is within the furnace housing where the metal can be melted and a position wherein the hearth is outside the furnace housing where metal can be loaded onto and unloaded from the hearth.

Abstract: Aluminum is produced from low-grade aluminum alloys by melting an Al-X alloy wherein X has a higher specific weight than aluminum and forms an eutectic mixture rich in aluminum, the starting melt being on the side of the eutectic mixture rich in aluminum, and radially cooling the melt from the inside to the outside while under the effect of centrifugal force.

Abstract: Metal in the molten state is transferred from one treating stage or zone to a succeeding stage or zone by gravity flow, the flow from one zone to the next being controlled by gas pressure, thus eliminating the need for valves, gates or similar moving parts. The process is particularly adapted to the treating of ferrous metal, more particularly to the making of steel. By providing sufficient zones in the series a continuous process can be run, starting with feed from a blast furnace, and conducting the material through alloying stages and a degassing stage and into a continuous casting zone.

Abstract: An apparatus for treating metal melts during continuous casting, wherein the teeming metal is enclosed to a point below the surface of the metal pool in the continuous casting mold to avoid contact with the ambient atmosphere and the surface of the pool is covered with a layer of slag. Small volumes of purging gas are introduced in bubble form into the metal melt at the location where such metal melt begins to form a teeming jet.

Abstract: The present invention is directed to an improved apparatus for the formation by accretion of copper stock of substantially homogeneous composition intended to be subsequently formed by drawing, rolling, etc. into wire rods, sheets, tubes, strip or the like. The invention, in general, is directed to the combination with an essentially known fuel fired melting furnace and a known accreting crucible apparatus, of a launder or conduit for receiving copper from the furnace, which copper may contain an unacceptably high percentage of oxygen, and depositing said copper in the crucible with the oxygen content reduced to a degree rendering the same satisfactory for accretion onto a purified copper seed rod.