Class / Patent application number | Description | Number of patent applications / Date published |
075708000 | Stirring or agitating of molten material | 9 |
20090084225 | METHODS OF RECOVERING AND PURIFYING SECONDARY ALUMINUM - The invention provides efficient and effective processes for recovering metals such as aluminum, magnesium and lithium from mixed waste sources such as auto shredder residue, aluminum cans, waste particles of aluminum alloy and municipal waste. The metal-waste source is dissolved in a more noble metal solvent at a temperature at which contaminants do not dissolve. The purified metal is then recovered from the solvent, preferably by electrorefining. | 04-02-2009 |
20110290076 | ADJUSTABLE VORTEXER APPARATUS - A method of adjusting a vortex of molten metal comprises providing a scrap charging vessel. The scrap charging vessel includes a vortex control plate having an outlet orifice that can be positioned at a bottom of the vessel so that the outlet orifice is in fluid communication with an outlet passageway of the vessel. A vortex level is estimated or observed. A size of the outlet orifice of the vortex control plate is selected that can produce a desired level of a vortex in the vessel that is the same as or different than the estimated or observed vortex level. The vortex control plate of the selected outlet orifice size is positioned in the vessel. Molten metal is moved into an inlet opening of the vessel and forms the vortex at the desired level in the vessel. | 12-01-2011 |
20120090432 | WETTABLE INJECTORS FOR DEGASSING OF MOLTEN METAL - Various illustrative embodiments of an apparatus and method for reducing the dissolved hydrogen content of a molten metal alloy are provided. The disclosed embodiments can be utilized for the processing of molten metal alloys such as aluminum, and more particularly, for the removal of dissolved hydrogen from molten metal alloys such as aluminum. Gas permeable diffusers can be employed that are wettable by molten metal. When used as gas injectors, either in combination with ultrasonic oscillation or without, the gas permeable wettable diffusers can provide a high density of ultrafine inert gas bubbles that can be used to rapidly and efficiently reduce the level of dissolved hydrogen within the molten metal. | 04-19-2012 |
20130098208 | METHOD FOR MAKING METAL BASED NANO-COMPOSITE MATERIAL - A method for making a metal based nano-composite material is disclosed. In the method, a semi-solid state metal based material is provided. The semi-solid state metal based material is stirred and nano sized reinforcements are added into the semi-solid state metal based material to obtain a semi-solid state mixture. The semi-solid state mixture is heated to a temperature above a liquidus temperature of the metal based material, to achieve a liquid metal-nano sized reinforcement mixture. The liquid metal-nano sized reinforcement mixture is ultrasonically processed at a temperature above the liquidus temperature by conducting ultrasonic vibrations to the liquid metal-nano sized reinforcement mixture along different directions at the same time. | 04-25-2013 |
20130199339 | APPARATUS AND METHODS FOR INDUSTRIAL-SCALE PRODUCTION OF METAL MATRIX NANOCOMPOSITES - Apparatus and methods for industrial-scale production of metal matrix nanocomposites (MMNCs) are provided. The apparatus and methods can be used for the batch production of an MMNC in a volume of molten metal housed within the cavity of a production chamber. Within the volume of molten metal, a flow is created which continuously carries agglomerates of nanoparticles, which have been introduced into the molten metal, through a cavitation zone formed in a cavitation cell housed within the production chamber. | 08-08-2013 |
20130228045 | APPARATUS AND METHOD FOR LIQUID METALS TREATMENT - This invention relates to an apparatus (high shear device) and method for treating liquid metals by intensive melt shearing. The apparatus comprises a stator and a rotor with a small gap between them to provide intensive melt shearing for dispersing efficiently and distributing uniformly gas, liquid and solid phases in liquid metals without severe turbulence at the melt surface. The device can be extended to a multistage high shear pump by arranging individual rotor/stator assemblies either concentrically (one in another) or vertically. The device and high shear pump can be readily integrated into existing casting processes. The device is suitable for use in casting processes including high pressure die casting, low pressure die casting, gravity die casting, sand casting, investment casting, direct chill casting, twin roll casting, and any other casting process which requires liquid metal as a feedstock. In addition, the device is particularly suitable for providing conditioned liquid metal for both shape casting and continuous (or semi-continuous) casting of metallic materials, preparing high quality semi-solid slurries, solidification processing of particulate reinforced metal matrix composites, mixing immiscible metallic liquids and degassing of liquid metals prior to any casting processes. | 09-05-2013 |
20150135902 | METHODS FOR INDUSTRIAL-SCALE PRODUCTION OF METAL MATRIX NANOCOMPOSITES - Apparatus and methods for industrial-scale production of metal matrix nanocomposites (MMNCs) are provided. The apparatus and methods can be used for the batch production of an MMNC in a volume of molten metal housed within the cavity of a production chamber. Within the volume of molten metal, a flow is created which continuously carries agglomerates of nanoparticles, which have been introduced into the molten metal, through a cavitation zone formed in a cavitation cell housed within the production chamber. | 05-21-2015 |
20160040936 | METHOD OF PROCESSING MOLTEN METALS AND ALLOYS - A technological method of treatment of two or more materials forming a melt is disclosed. The melt may be subjected to turbulence under simultaneous combined action of resonance and hydraulic impact. Turbulence occurs when parameters of compelled vibration equalize with natural oscillations of the melt which is a function of geometric parameters of the crucible, the rheological, physical and mechanical characteristic of the two or more materials. An application of a low frequency mechanical vibration with an amplitude between 0.5-2.5 mm, frequency between 30-300 Hz, and acceleration between 15-50 G (Gravitational acceleration) may be performed on a hermetically sealed cylindrical crucible, vertically installed on a vibration unit. The heat for melting may be generated by a furnace (e.g., induction heater) installed around vibrating crucible. Various combinations of materials, batch and continuous processes are possible. | 02-11-2016 |
20160186277 | MOLTEN IRON REFINING METHOD AND DEVICE THEREOF - Provided are a molten metal refining device and method. The molten metal refining method includes: preparing molten metal; dipping an impeller into the molten metal; supplying a liquid dephosphorization agent on top of the molten metal; and stirring the molten metal by rotating the impeller, wherein a solid dephosphorization agent in a powder state is supplied through the lower portion of the impeller in the stirring of the molten metal, thereby improving the stirring efficiency of the molten metal and efficiently controlling the phosphorus concentration in the molten metal. | 06-30-2016 |