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Matches 351 - 400 out of 32,895

Document Document Title
WO/2015/137303A1
This magnetic core has a structure in which alloy phases (20), which include Fe, Al, Cr and Si, are dispersed. Adjacent alloy phases (20) are connected by grain barrier phases (30), and in the grain barrier phases (30), oxide regions are...  
WO/2015/132550A1
A computer-controlled method of component manufacture is disclosed, comprising winding a thread of material around a shaping element to form a first layer formed of adjacent turns of said thread This is repeated to form a second layer of...  
WO/2015/133138A1
The present invention provides a powder sintering lamination method that can reduce warping deformation of a three-dimensionally shaped object stemming from the manner of scanning a light beam. In the production method, the molding of a ...  
WO/2015/133137A1
 Provided is a powder sintering lamination method with which protrusion of "sections corresponding to the contours of a three-dimensional molded article" can be reduced. This manufacturing method involves: repeatedly carrying out powde...  
WO/2015/133263A1
A method for producing an electrode material, wherein particles containing Cr are miniaturized and uniformly dispersed and Cu portions, which serve as a highly conductive component, are also miniaturized and uniformly dispersed. This met...  
WO/2015/133264A1
An alloy wherein particles containing Cr are miniaturized and uniformly dispersed and Cu portions, which serve as a highly conductive component, are also miniaturized and uniformly dispersed. This alloy is produced, for example, by: a mi...  
WO/2015/134075A3
A method of forming a build in a powder bed includes emitting a plurality of laser beams from selected fibers of a diode laser fiber array onto the powder bed, the selected fibers of the array corresponding to a pattern of a layer of the...  
WO/2015/131989A1
The invention relates to a method for producing a metal workpiece in layers by means of additive manufacturing, wherein metallurgical layers of the workpiece are produced by providing a particular metal material in a production chamber f...  
WO/2015/133262A1
This electrode material results from reducing the size of and uniformly dispersing particles containing Cr, and also minutely and uniformly dispersing a Cu portion, which is a highly conductive component. The electrode material is prepar...  
WO/2015/129861A1
An R-T-B sintered magnet characterized in that the composition represented by formula (1) satisfies conditions (2) through (9). (1) uRwBxGazAlvCoqTigFejM (in which R represents neodymium and optionally one or more other rare earth elemen...  
WO/2015/120496A1
Moulding tool, method for powder metallurgical production of a green body, and a use of the moulding tool. The moulding tool (2) comprises an upper die and a lower die which can be displaced along a common pressing axis, a matrix body (4...  
WO/2015/123380A1
Described herein is a method for making a metal matrix composite material comprising: (a) forming a metal box comprising a bottom forming plate having a length and a width, a first pair of side forming plates having a length and a height...  
WO/2015/122271A1
Provided are a Nd-Fe-B-based magnetic powder and a Sm-Fe-N-based magnetic powder, each of which can improve an anti-corrosive property and heat resistance of a bonded magnet without deteriorating magnetic properties of the bonded magnet....  
WO/2015/123513A1
A method for providing an anti-coking coating system (22) on a surface at elevated temperatures when contacted by a hydrocarbon fluid, for example, a surface of an interior fuel passage within a fuel nozzle of a type utilized in gas turb...  
WO/2015/122953A3
A method of manufacturing a superalloy compound component is provided. The component includes a first component portion primarily consisting of a first superalloy and a second component portion primarily consisting of a second superalloy...  
WO/2015/119692A9
A method of making a component (C) includes: depositing a metallic powder (P) on a workplane (128); directing a beam from a directed energy source (124) to fuse the powder (P) in a pattern corresponding to a cross-sectional layer of the ...  
WO/2015/118943A1
Provided is a method for manufacturing magnetic particles, in which an oxidation treatment, a reduction treatment, and a nitriding treatment are performed in that order on raw material particles with a core-shell structure in which a sil...  
WO/2015/119231A1
The present invention relates to a plain bearing (1) having: a bearing outer circumferential part (2) formed from a metal base material; and a resin layer (3) formed on a surface of the bearing outer circumferential part (2) serving as t...  
WO/2015/120168A1
An additive manufacturing system includes an energy gun having a plurality of energy source devices each emitting an energy beam. A primary beam melts a selected region of a substrate into a melt pool and at least one secondary beam heat...  
WO/2015/120047A1
A self-monitoring additive manufacturing system and method of operation utilizes a surface imaging monitor to image a surface of a slice of a workpiece for storage and processing of the image to detect surface anomalies. The monitoring m...  
WO/2015/119692A3
A method of making a component (C) includes: depositing a metallic powder (P) on a workplane (128); directing a beam from a directed energy source (124) to fuse the powder (P) in a pattern corresponding to a cross-sectional layer of the ...  
WO/2015/114035A1
The invention relates to a method for constructing a three-dimensional object (3) in layers from a pulverulent construction material by solidifying layers of the pulverulent construction material in a successive manner at each layer poin...  
WO/2015/115427A1
 Provided is a manufacturing method by which, using industrially inexpensive hydrogen gas, coarse grains of a high-purity nickel powder can be produced from a nickel ammine sulfate complex solution, employing a fine nickel powder. This...  
WO/2015/114914A1
This Cu-Ga alloy sputtering target is a fired body having a composition that contains 29.5-43.0% by atom of Ga with the balance made up of Cu and unavoidable impurities. A Cu-Ga alloy crystal grain in the fired body has a structure where...  
WO/2015/112733A1
A manufacturing process is provided in which material is supported within a chamber. This material includes a plurality of discrete metal particles and ceramic disposed between at least some of the metal particles. At least a portion of ...  
WO/2015/112583A1
A method is provided for manufacturing a component. This method includes additively manufacturing a crucible for casting of the component. A metal material is directionally solidified within the crucible to form a metal single crystal ma...  
WO/2015/112390A3
A method of processing a component (10) with an energy beam (13) comprises simultaneously scanning and heating a first portion (12) and second adjacent portion (14) of the component with an energy beam (13). At a point or area of diverge...  
WO/2015/112726A1
A system is provided for additively manufacturing a part. This additive manufacturing system includes a base, a solidification device and a detection device. The base is adapted to support material; e.g., powder material. The solidificat...  
WO/2015/112422A1
An additive manufacturing system and method of operation includes a build table for supporting a powder bed that is packed through the use of a vibration inducing device proximate to the build table. Through this packing, voids of the be...  
WO/2015/112730A1
A process is provided for manufacturing a part or parts. This manufacturing process includes receiving a plurality of metal materials. The manufacturing process also includes solidifying the metal materials together using an additive man...  
WO/2015/111361A1
A process for producing a powder material of a solid solution of nitrogen in titanium, characterized in that a titanium powder material constituted of titanium powder particles is heated in a nitrogen-containing atmosphere to form a soli...  
WO/2015/112366A1
A method for manufacturing a component includes providing a metallic first powder having a plurality of first particles with a first mean particle diameter. A second powder added to the first powder has a plurality of second particles wi...  
WO/2015/111338A1
 This sintered machine part is formed by an iron-based sinter obtained by molding and sintering of a starting material powder that includes an iron-based, partial diffusion alloy steel powder. The proportion of carbon in the iron-based...  
WO/2015/112388A1
A method for processing a part (10) with an energy beam. A mask (70, 80) is arranged between a source of the energy beam and the part. The mask is configured with a beam-transmissive portion (71) in correspondence with mutually opposed p...  
WO/2015/112390A2
A method of processing a component (10) with an energy beam (13) comprises simultaneously scanning and heating a first portion (12) and second adjacent portion (14) of the component with an energy beam (13). At a point or area of diverge...  
WO/2015/112723A1
A manufacturing process is provided. During this process, material is solidified together within a chamber to form an object using an additive manufacturing device. At least a portion of the solidified material is conditioned within the ...  
WO/2015/112365A1
A method includes providing a metallic first powder having a plurality of first particles with a first mean particle diameter. A second powder added to the first powder has a plurality of second particles with a second mean particle diam...  
WO/2015/111423A1
An electrode material that is obtained by press molding a mixed powder, which is obtained by mixing a Cu powder, a Cr powder and a refractory metal powder (for example, an Mo powder), and firing the thus-obtained molded body in a non-oxi...  
WO/2015/109102A1
An additive manufacturing system utilizing an epitaxy process, and method of manufacture, utilizes a heating source and a cooling source to control thermal gradients and a solidification rate of each slice of a workpiece manufactured fro...  
WO/2015/108895A1
A valve pin in an injection molding system having an axis and comprising: a first body portion formed into a stem that is comprised of a first selected metal material, the stem comprising an elongated shaft having an upstream end interco...  
WO/2015/108891A1
A system for preventing powder depletion/contamination during a consolidation process has a can for holding a powdered material; the can having an interior wall; a protective layer positioned intermediate the powdered material and the in...  
WO/2015/108059A1
Provided is a magnetic core having a structure in which Fe-based soft magnetic alloy particles (20) are connected via a grain boundary, wherein the Fe-based soft magnetic alloy particles (20) contain Al, Cr, and Si; an oxide layer (30) c...  
WO/2015/109096A1
An additive manufacturing system includes an ultrasonic inspection system integrated in such a way as to minimize time needed for an inspection process. The inspection system may have an ultrasonic phased array integrated into a build ta...  
WO/2015/108810A1
High weld fatigue class transverse butt joint (33) welds utilizing customized consumable weld inserts laid into the root of the joint (33). The customized consumable weld inserts may be produced with a 3D printer (42) using digital data ...  
WO/2015/109214A1
A workpiece manufactured from an additive manufacturing system (AMS) having a particle separator and a method of operating includes modeling the workpiece into layers and modeling the layers into a plurality of regions. The AMS then depo...  
WO/2015/108599A2
The present disclosure provides a method of preparing superalloy metals having a crystallographic texture controlled micro structure by electron beam melting.  
WO/2015/108599A9
The present disclosure provides a method of preparing superalloy metals having a crystallographic texture controlled micro structure by electron beam melting.  
WO/2015/108899A1
The loss of aluminum content during the laser (20) deposition of superalloy powders (16) is accommodated by melting pure aluminum foil (14) with the superalloy powder to increase a concentration of aluminum in the melt pool (24) so that ...  
WO/2015/108599A3
The present disclosure provides a method of preparing superalloy metals having a crystallographic texture controlled micro structure by electron beam melting.  
WO/2015/107287A1
The invention relates to a method for manufacturing an electrical conductor from a carbon nanotube powder and a copper salt powder. The method comprises the following steps: - mixing the carbon nanotube powder in a solution; - dispersing...  

Matches 351 - 400 out of 32,895