Class / Patent application number | Description | Number of patent applications / Date published |
164046000 | Disposition of a gaseous or projected particulate molten material on a shaping surface | 9 |
20100101748 | HIGH-STRENGTH AND HIGH-DUCTILITY AL ALLOY AND PROCESS FOR PRODUCTION OF THE SAME - An object of the present invention is to provide an Al—Zn—Mg—Cu 7000-series Al alloy having high ductility as well as having high strength. For attaining this purpose, an Al alloy having a structure in which an inclusion is not included is produced by reducing an amount of oxygen contained in an Al alloy that is obtained by solidifying a preform resulting from rapid solidification by preferably spray forming a molten metal of an Al—Zn—Mg—Cu 7000-series Al alloy with an inert gas. This Al alloy has, as mechanical properties at an ordinary temperature, a tensile strength of 600 MPa or more, and an elongation of 15% or more when the tensile strength is from 600 MPa or more and less than 800 MPa or an elongation of 10% or more when the tensile strength is 800 MPa or more, and is excellent in cold workability such as rollability. | 04-29-2010 |
20100282428 | SPRAY DEPOSITION OF L12 ALUMINUM ALLOYS - A method for producing high strength aluminum alloy product from powder containing L1 | 11-11-2010 |
20100314068 | Casting Apparatus and Method - 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. | 12-16-2010 |
20120273152 | METHOD FOR PRODUCING A PIPE - A method for producing a pipe, a carrier element being coated by means of a thermal spraying method, the material of the pipe formed later being selected as the coating material, and the coating forming the pipe being detached from the carrier element, the spraying angle, at which the coating material is sprayed onto the carrier element, being selected such that a low level of adhesion of the coating on the carrier element is achieved. | 11-01-2012 |
20130000860 | System and method for making a structured magnetic material via layered particle deposition - A system for making a material having domains with insulated boundaries is provided. The system includes a droplet spray subsystem configured to create molten alloy droplets and direct the molten alloy droplets to a surface, a spray subsystem configured to direct a spray of an agent at deposited droplets on the surface. The agent creates insulation layers on the deposited droplets such that the droplets form a material having domains with insulated boundaries on the surface. | 01-03-2013 |
20130000861 | System and method for making structured magnetic material from insulated particles - A system for making a material having domains with insulated boundaries is provided. The system includes a combustion chamber, a gas inlet configured to inject a gas into the combustion chamber, a fuel inlet configured to inject a fuel into the combustion chamber, an igniter subsystem configured to ignite a mixture of the gas and the fuel to create a predetermined temperature and pressure in the combustion chamber, a metal powder inlet configured to inject a metal powder comprised of particles coated with an electrically insulating material into the combustion, wherein the predetermined temperature creates conditioned droplets comprised of the metal powder in the chamber, and an outlet configured to eject and accelerate combustion gases and the conditioned droplets from the combustion chamber and towards a surface such that conditioned droplets adhere to the surface to form a material having domains with insulated boundaries thereon. | 01-03-2013 |
20130292081 | SYSTEM AND METHOD FOR MAKING A STRUCTURED MAGNETIC MATERIAL WITH INTEGRATED PARTICLE INSULATION - A system for forming a soft magnetic bulk material of a predetermined shape from a magnetic material and a source of insulating material. The systems has a heating device; a deposition device; a support configured to support the soft magnetic bulk material of the predetermined shape; and a mask configured as a negative of at least a portion of the predetermined shape. The heating device heats the magnetic material to form particles having a softened state and wherein the deposition device deposits successive layers of particles of the magnetic material in the softened state on the support with the mask located between the deposition device and the support. The mask is indexed to a position relative to the support upon deposition of the successive layers. The mask selectively blocks the successive layers of particles of the magnetic material in the softened state from being deposited on the support forming the soft magnetic bulk material of a predetermined shape on the support. | 11-07-2013 |
20140374048 | PROCESSES, SYSTEMS, AND APPARATUS FOR FORMING PRODUCTS FROM ATOMIZED METALS AND ALLOYS - Processes, systems, and apparatuses are disclosed for forming products from atomized metals and alloys. A stream of molten alloy and/or a series of droplets of molten alloy is atomized to produce particles of the molten alloy. The molten alloy particles are cooled to a temperature that is less than a solidus temperature of the molten alloy particles so that the molten alloy particles solidify. The solid alloy particles impact a collector and produce a solid alloy preform. | 12-25-2014 |
20150107794 | REFINING AND CASTING APPARATUS AND METHOD - An apparatus for casting metals by a nucleated casting technique to create a preform, the apparatus including a mold having a base and a side wall where the base can be moved relative to the side wall to withdraw the preform as it is being created. In various circumstances, portions of a droplet spray created by an atomizing nozzle, i.e., overspray, may accumulate on a top surface of the side wall and prevent or inhibit the preform from being moved relative to the side wall. The atomizing nozzle can be oriented such that the droplet spray passes over the top of the side wall to remelt and remove at least a portion of the overspray that has accumulated thereon. The mold can be rotated such that the overspray formed on a region of or on the entire perimeter of the top surface can pass through the droplet spray and can be removed from the side wall. | 04-23-2015 |