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Matches 1 - 50 out of 20,541

Document Document Title
WO/2020/187368A1
The invention relates to a nickel alloy comprising (in wt.%) Ni 50 - 55%, Cr 17 - 21%, Mo > 0 - 9%, W 0 - 9%, Nb 1 - 5.7%, Ta > 0 - 4.7%, Ti 0.1 - 3.0%, AI 0.4 - 4.0%, Co max. 3.0%, Mn max. 0.35%, Si max. 0.35%, Cu max. 0.23%, C 0.001 - ...  
WO/2020/188205A2
The invention relates to new superalloy compositions having a limited density and having, in the hot state, good mechanical properties as well as good resistance to oxidation and corrosion.  
WO/2020/184724A1
A single-crystal grain powder having a TbCu7 crystal structure according to the present invention is characterized by being represented by general formula (1) or general formula (2) (wherein R represents at least one element selected fro...  
WO/2019/027347A8
The invention relates to metallurgy and more particularly to nickel-based alloys intended for use in aggressive oxidising environments. The present nickel-based corrosion-resistant alloy contains: ≤ 0.006 wt.% carbon, ≤ 0.1 wt.% sili...  
WO/2020/179724A1
[Problem] To provide a multilayer model which has excellent corrosion resistance. [Solution] A multilayer model 1 according to the present invention is composed of an Ni-based alloy that contains Cr and Mo, while containing Ni in the lar...  
WO/2020/179766A1
Provided is an additively manufactured article having excellent mechanical properties and comprising a Ni-Cr-Mo based alloy. The additively manufactured article according to present invention is a member comprising a Ni-based alloy in wh...  
WO/2020/179084A1
The purpose of the present invention is to provide a Co-based alloy product and a Co-based article, which have mechanical properties equal to or higher than a precipitation-strengthened Ni-based alloy material. A Co-based alloy product a...  
WO/2020/179083A1
The purpose of the present invention is to provide: a Co-based alloy product having mechanical properties that are equivalent or superior to those of precipitation-hardened Ni-based alloy materials; and a method for producing the Co-base...  
WO/2020/179080A1
The purpose of the present invention is to provide: a Co-based alloy product having mechanical properties that are equivalent or superior to those of precipitation-hardened Ni-based alloy materials; a method for manufacturing the product...  
WO/2020/179154A1
The invention addresses the problem of providing an Ni-based corrosion-resistant alloy powder that is suitable for use in additive manufacturing, and a production method for an additive manufacturing product using the powder, the product...  
WO/2020/179081A1
The purpose of the present invention is to provide a Co-based alloy product having mechanical properties that are equivalent or superior to those of precipitation-hardened Ni-based alloy materials. The Co-based alloy product according to...  
WO/2020/180325A1
A bond coating material providing unexpectedly high thermal cyclic fatigue resistance and sulfidation resistance, and unexpectedly prolonged thermal cycle life in high temperature environments of gas turbine engine components with and wi...  
WO/2020/179082A1
Provided are: a Co-based alloy powder that can provide a Co-based alloy material having mechanical properties at least equal to those of precipitation-strengthened Ni-based alloy materials; a Co-based alloy sintered body; and a method fo...  
WO/2020/179207A1
Provided are a Co-based alloy powder, a Co-based alloy sintered body, and a method for manufacturing a Co-based alloy sintered body capable of providing a Co-based alloy material having mechanical characteristics equivalent to or greater...  
WO/2020/179085A1
The purpose of the present invention is to provide a Co-based alloy heat exchanger having excellent mechanical properties and high heat resistance as compared to conventional heat exchangers bonded through brazing. The heat exchanger mad...  
WO/2020/174523A1
A method for repairing a damaged part of a precipitation-strengthened cast product, comprising: a first welding layer-formation step in which a solid solution-strengthened welding material having higher toughness than a cast product is u...  
WO/2020/173909A1
Subject of the invention is a method for producing a catalyst material, comprising the steps of (a) providing an alloy powder, wherein the alloy consists of 20% to 98% by weight of at least one carrier element selected from Al, Si, Ti, Z...  
WO/2020/175424A1
The present invention addresses the problem of providing an alloy which is suitable for a sputtering target material and can be produced easily by an atomization method. For solving the problem, an alloy is provided, which comprises at l...  
WO/2020/174525A1
A method for repairing a damaged part of a precipitation-strengthened cast product, in which a welding material 53 comprising a solid solution-strengthened alloy and having higher toughness than a precipitation-strengthened cast product ...  
WO/2020/171174A1
The present invention has particles (10) having an L10-type ordered structure, the grain diameter of the particles being set to 200-500 nm, and the volume ratio [vol.%] of pores (11) included in the particles being 5% or less relative to...  
WO/2020/123096A3
New 2xxx aluminum alloys are disclosed. The new 2xxx aluminum alloys generally include from 0.08 to 0.20 wt. % Ti. The new 2xxx aluminum alloys may realize an improved combination of two or more of strength, fracture toughness, elongatio...  
WO/2020/171175A1
The present invention has a structure wherein the periphery of a particle (10) that has an L10 ordered structure is covered by an insulating cover (12, 13) that is composed of an insulating body.  
WO/2020/172034A1
Various embodiments include honeycomb structures including an abradable material, and a method of applying such honeycomb structures to steel components of a gas turbine engine in order to reduce rub damage. Particular embodiments includ...  
WO/2020/101766A3
A pre-sintered preform (114) and a repair process (100) utilizing the pre-sintered preform (114) are disclosed, each of which result in a brazement (116) comprising a replacement protective coating (118) deposited on a component surface ...  
WO/2020/166380A1
A sputtering target material comprises an alloy containing cobalt, iron, and boron, where the concentration of the boron is 20-60 at%. The sputtering target material further contains oxygen, where the concentration of the oxygen is 5,000...  
WO/2020/157406A1
The invention relates to a nickel-based superalloy comprising, in weight percentages, 5.9 to 6.5% of aluminum, 9.5 to 10.5% of cobalt, 4 to 5% of chromium, 0.1 to 0.2% of hafnium, 0.3 to 0.7% of molybdenum, 3.7 to 4.5% of rhenium, 7.5 to...  
WO/2020/158660A1
Provided is a highly reliable solder joint. This solder joint includes: a solder joining layer in which a solder material has been melted, said solder material having Sn as the primary component thereof and further including Ag and/or ...  
WO/2020/156779A1
A selective choice of alloy elements permits the provision of an alloy which can be used to produce components devoid of cracking.  
WO/2020/154470A1
A lift plug for lifting a graphite electrode includes a main body and an insert coupled to one end of the main body, with the insert configured to mate with a graphite electrode to secure the lift plug to the graphite electrode. The lift...  
WO/2020/154494A1
A nickel base superalloy powder for additive manufacturing applications is disclosed. The alloy powder has the following broad weight percent composition: C 0-0.1 Mn 0.5 max. Si 0-0.03 Cr 4-16 Fe 0-1.5 Mo 0-6 W 0-8 Co 0-15 Ti 0-2 A1 0.5-...  
WO/2020/148504A1
The invention relates to a nickel-based superalloy comprising, in weight percentages, 4 to 6% of aluminum, 5 to 8% of cobalt, 6 to 9% of chromium, 0.1 to 0.9% of hafnium, 2 to 4% of molybdenum, 5 to 7% of rhenium, 5 to 7% of tantalum, 2 ...  
WO/2020/148503A1
The invention relates to a nickel-based superalloy comprising, in weight percentages, 6 to 8% of aluminum, 12 to 15% of cobalt, 4 to 8% of chromium, 0 to 0.2% of hafnium, 0.5 to 4% of molybdenum, 3.5 to 6% of rhenium, 4 to 6% of tantalum...  
WO/2020/143995A1
This a new alloy especially for additive manufacturing, which comprises (in wt%):, especially consists of: Boron (B) 0.01% - 0.1%; Titanium (Ti) 0.15% - 0.3%; Chromium (Cr) 22.5% - 24.25%; Carbon (C) 0.55% - 0.6%; Nickel (Ni) 10.0% - 15....  
WO/2020/144924A1
The problem is to provide a fluid-contacting member particularly having further improved corrosion resistance than ever before. For solving the problem, a fluid-contacting member 10 is provided with a fluid-contacting part 1 that comes i...  
WO/2020/142671A1
A powder metal material and sintered component formed of the powder metal material is provided. The powder metal material comprises a plurality of particles including copper in an amount of 10 wt. % to 50 wt. %, based on the total weight...  
WO/2020/137874A1
The Ni-plated steel sheet according to one embodiment of the present invention is provided with: a base steel sheet; a diffusion alloy layer disposed on the base steel sheet; and a Ni-plating layer disposed on the diffusion alloy layer, ...  
WO/2020/137542A1
Provided is a sintered body containing a metal magnetic substance, wherein the deterioration of electrical properties due to molding can be reduced and excellent DC superposition characteristics can be obtained. The sintered body contain...  
WO/2020/137887A1
A Ni-plated steel sheet pertaining to an embodiment of the present invention comprises a base material steel sheet, an Fe-Ni diffusion alloy region disposed on the base material steel sheet, and a Ni plating region disposed on the Fe-Ni ...  
WO/2020/135995A1
An alloy is provided by the targeted selection of some elements of silicone, manganese, sulfur, chromium, titanium, aluminum, zirconium, tantalum, iron, copper, niobium, yttrium and yttrium oxide, which can be readily processed and also ...  
WO/2020/132085A1
A method of manufacturing a device includes thermally spraying tungsten carbine in feedstock that does not include Cobalt but that includes Nickel, Copper, or a Nickel-Copper alloy, the method improves the base coating toughness, anticor...  
WO/2020/126053A1
The present disclosure relates to the use of a component manufactured of an aluminium alloyed nickel-based material in a molten salt environment, especially a carbonate salt environments.  
WO/2020/129282A1
Provided is an alloy which has a composition enabling lower cost than Mar-M246, and which has a substitutable creep rupture strength. The present invention provides a Ni-based super-heat-resistant alloy comprising, in terms of mass%, 0...  
WO/2020/121367A1
The purpose of the present invention is to provide a Co-based alloy laminate molded body which is a Co-based alloy material that has the same or better mechanical characteristics as precipitation-strengthened Ni-based alloy materials, a ...  
WO/2020/123096A2
New 2xxx aluminum alloys are disclosed. The new 2xxx aluminum alloys generally include from 0.08 to 0.20 wt. % Ti. The new 2xxx aluminum alloys may realize an improved combination of two or more of strength, fracture toughness, elongatio...  
WO/2020/116631A1
This method for producing a positive electrode active material for a lithium secondary battery is characterized by including a calcination step for performing calcination, using a calcination means, on a mixture of a composite metal comp...  
WO/2020/115478A1
A nickel-based alloy composition consisting, in weight percent, of: between 5.0% and 6.9% aluminium, between 0.0% and 11.0% cobalt, between 6.0% and 11.6% chromium, between 0.0% and 4.0% molybdenum, between 0.0% and 2.0% niobium, between...  
WO/2020/117581A1
An additive manufactured product, along with methods of its formation, is provided. The additive manufactured product may include a fused multilayer component (100) comprising a nickel superalloy having a composition comprising, by weigh...  
WO/2020/116588A1
This method for manufacturing a ferritic heat resistant steel welded joint includes a multilayer welding step of using a welding material for an Ni-based heat resistant alloy to perform multilayer welding of a ferritic heat resistant ste...  
WO/2020/115953A1
The present invention provides: a hydrogen storage material which is capable of improving the discharge characteristics of a nickel hydrogen secondary battery at low temperatures; and a negative electrode and a nickel hydrogen secondary ...  
WO/2020/111562A1
The present invention relates to a brazing Ni-Cr-Fe-P-based alloy powder having a low melting point and high corrosive resistance and a manufacturing method therefor and, more specifically, to a brazing Ni-Cr-Fe-P-based alloy powder comp...  

Matches 1 - 50 out of 20,541