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WO/2018/168968A1 |
Provided is a sintered friction material for a brake which has a high coefficient of friction and with which it is possible to suppress reductions in the coefficient of friction and maintain stabilized braking performance even in high-te...
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WO/2018/163823A1 |
[Problem] To provide a nickel powder and a nickel paste that is satisfactory as an internal electrode material for an MLCC and that has excellent debinding properties and improved dispersibility and wetting properties in a low-polarity s...
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WO/2018/163861A1 |
This Cu-Ni alloy sputtering target has a composition such that: Ni is contained in the range of 16 mass% to 55 mass%; the hydrogen content is less than 5 mass ppm, the oxygen content is 500 mass ppm or less, and the carbon content is 500...
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WO/2018/157228A1 |
The high gamma prime nickel based superalloy, which comprises 10 - 13 wt. % Co, 3 - 10 wt. % Cr, 0.5 - 2 wt. % Mo, 3 - 7 wt. % W, 0.5 - 10 wt. % Re, 5 - 6 wt. % Al, 5 - 7 wt. % Ta, 0.5 - 2 wt. % Hf, 0.01 - 0.15 wt. % C, 0.005 - 0.05 wt. ...
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WO/2018/158509A1 |
The present invention relates to a metal alloy for use at a very high temperature, particularly able to be used in a method for manufacturing mineral wool by drawing a molten mineral composition, characterised in that it contains the fol...
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WO/2018/159610A1 |
The purpose of the present invention is to provide: a soft magnetic flat powder having high magnetic permeability and high weather resistance; a soft magnetic resin composition containing the soft magnetic flat powder; and a magnetic she...
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WO/2018/158342A1 |
The present disclosure relates to a method for heat treatment of an Alloy 282 which has been subjected to an initial solution annealing followed by cooling, the method comprising the steps of heating the Alloy 282 to a temperature betwee...
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WO/2018/154848A1 |
A method for manufacturing a contact material having: a step for forming an Ni alloy coating having a film thickness of 40 to 110 nm on the surface of a WC powder having an average particle diameter of 2 to 10 μm by electroless Ni plati...
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WO/2018/155400A1 |
A hydrogen-occluding alloy that occludes large amounts of hydrogen, can easily discharge occluded hydrogen, and is not subject to large fluctuations in raw material costs. A hydrogen-occluding alloy that has the composition ZrATixNbyNiz ...
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WO/2018/155399A1 |
Provided are: an alkaline storage battery negative electrode (1) that has excellent cost stability, has high discharge capacity from an initial charge/discharge cycle, and can maintain said high discharge capacity over a long period of t...
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WO/2018/155446A1 |
This Ni-based super heat-resistant alloy has a component composition in which the equilibrium precipitated amount of a gamma prime phase at 700°C is 35 mol% or greater, and has crystal grains having a maximum diameter of 75 nm or less i...
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WO/2018/151222A1 |
This Ni-based heat-resistant alloy contains predetermined amounts of C, Si, Mn, P, S, N, O, Ni, Co, Cr, Mo, W, B, Al, Ti, Nb, REM, Mg, and Ca, the remainder being Fe and impurities, the expressions [0.1 ≤ Mo + W ≤ 12.0], [1.0 ≤ 4 Ã...
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WO/2018/151262A1 |
The purpose of the present invention is to enhance the creep characteristics of an Ni-based alloy. The present invention relates to a Ni-based alloy characterized by having a composition containing, in terms of wt%, 15.00-25.00% Cr, 5.00...
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WO/2018/148110A1 |
The present invention relates to a turbocharger components comprising a relatively light-weight nicked-based superalloy having an amount of γ'-phase domains that is greater than about 40 % after aging the component at about 1000°C for ...
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WO/2018/146783A1 |
Provided is an austenitic heat resistant alloy containing, in mass%, 0.02-0.12% of C, at most 2.0% of Si, at most 3.0% of Mn, at most 0.030% of P, at most 0.015% of S, at least 20.0% and less than 28.0% of Cr, more than 35.0% and at most...
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WO/2018/142218A1 |
This sliding member comprises a substrate, and a coating layer formed on the substrate. The coating layer includes: a steel part derived from a plurality of austenitic stainless steel particles; and a copper part derived from a plurality...
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WO/2018/138247A1 |
The present invention relates to a new pre-alloyed metal based powder, intended to be used in surface coating of metal parts. The powder is deposited using e.g. laser cladding or plasma transfer arc welding (PTA), or thermal spray (e.g. ...
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WO/2018/128081A1 |
This cladding material (50) for a negative electrode current collector of a secondary battery comprises: a Ni alloy layer (51) which is constituted from a Ni alloy that contains 0.005-0.50 mass% of C, Ni and unavoidable impurities; and a...
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WO/2018/129476A1 |
Contemplated is a magnetocaloric materials comprising: (CexNd1 -x)Si wherein x is in the range of about 0.1 to about 0.9, and wherein the magnetocaloric material exhibits a 2nd order magnetic phase transition in the temperature range of ...
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WO/2018/123380A1 |
[Problem] To provide a heat dissipation component which is for a semiconductor element, which has a high thermal conductivity and a linear expansion coefficient close to that of a semiconductor element, and which is highly reliable and h...
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WO/2018/123579A1 |
The present invention provides a technique which is able to improve the electrical conductivity of a negative electrode material that comprises hydrogen storage alloy particles. A method for producing a negative electrode material, which...
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WO/2018/123752A1 |
Provided is a novel hydrogen storage alloy suitable for prescribed pretreatment, that is, pretreatment wherein mechanical pulverization is performed after pulverizing a hydrogen storage alloy and storing/releasing hydrogen. A hydrogen st...
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WO/2018/117226A1 |
[Problem] To provide a method for producing a hot-forged material in an atmosphere using, for the die, an Ni-base superalloy which is advantageous in terms of the service life of the die, and also using, as a lubricant, a glass lubricant...
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WO/2018/116797A1 |
The present invention relates to a Ni-based heat-resistant alloy that comprises 5.0–50.0 mass% of Ir, 1.0–8.0 mass% of Al, and 5.0–25.0 mass% of W, the remainder being Ni, and that has, in a matrix, γ' phases that have an L12 stru...
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WO/2018/116810A1 |
The present invention relates to a Ni-based heat-resistant alloy that comprises 5.0–50.0 mass% of Ir, 1.0–8.0 mass% of Al, and 5.0–25.0 mass% of W, the remainder being Ni, and that has, in a matrix, γ' phases that have an L12 stru...
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WO/2018/113830A1 |
The invention relates to methods for producing nickel alloys having optimized strip weldability (TIG without additive) from an alloy having the following composition (in wt%): C max. 0.05% Co max. 2.5% Ni remainder, in particular > 35 - ...
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WO/2018/108208A1 |
The invention relates to the use of an alloy having the following composition (in wt. %): Cr 20.0 - 23,0%, Mo 18.5 - 21.05%, Fe ≤ 1.5%, Mn ≤ 0.5%, Si ≤ 0.1%, Co ≤ 0.3%, W ≤ 0.3%, Cu ≤ 0.5%, AI ≤ 0.4%, C ≤ 0.01%, P ≤ 0.0...
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WO/2018/105628A1 |
The purpose of the present invention is to provide a method for producing a nickel powder, by which a fine nickel powder is able to be obtained by a wet process, said fine nickel powder being reduced in inclusion of impurities due to a c...
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WO/2018/105997A1 |
Provided, according to one embodiment of the present invention, is a file that can be used for cleaning a root canal by using ultrasonic energy. A file according to one embodiment of the present invention is formed of a Ni-Ti alloy and i...
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WO/2018/092204A1 |
This method for producing a Ni-based alloy high temperature material is characterized in that: the method comprises a step for performing hot die forging of a Ni-based alloy workpiece using prescribed dies and a step for performing solut...
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WO/2018/091694A1 |
The invention relates, in one embodiment, to a semi-finished product, which comprises at least one metal strip consisting substantially of 35 wt% ≤ Co ≤ 55 wt%, 0 wt% ≤ V ≤ 3 wt%, 0 wt% ≤ Ni ≤ 2 wt%, 0 wt% ≤ Nb ≤ 0.50 wt%...
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WO/2018/093265A1 |
The invention relates to a nickel-base alloy including nickel and at least alloying elements chromium, boron, silicon and niobium, the alloy including 4.0-5.0 wt% Nb, with 18 - 22 wt% Cr, 5.5 - 6.5 wt% Si, 1.0 - 1.5 wt% B, 5 - 8 wt% Fe, ...
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WO/2018/088070A1 |
The present invention provides: a tubular body used in high temperature atmospheres; and a method for stably forming a metal oxide layer to have a high surface area on the inner surface of the tubular body. This tubular body used in high...
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WO/2018/088069A1 |
The present invention provides: an alloy for overlay welding, the alloy being capable of forming an Al oxide-containing alumina barrier layer in a protrusion overlay-welded on the inner surface of a reaction tube; a welding powder; and a...
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WO/2018/088251A1 |
The present invention relates to prolonging the service life of a boiler water pipe (heat transfer pipe) of an ordinary waste incinerator boiler, etc. The surface of the base material of a boiler water pipe of a waste incinerator is coat...
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WO/2018/088392A1 |
Provided is a method for producing a rare earth magnet, which suppresses the occurrence of cracking in a molded body when the molded body is formed from a metal powder containing a rare earth element, and which improves the shape retaina...
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WO/2018/083065A1 |
The invention relates to a nickel-based superalloy without titanium or to a corresponding powder. The alloy or powder according to the invention can be easily processed and is particularly preferably used in additive manufacturing.
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WO/2018/083841A1 |
A magnetic member (2) for a magnetic refrigeration machine is provided with a cylindrical outer layer (4), and wall bodies (6) having a magneto-caloric effect. The wall bodies (6) extend along the axial direction of the outer layer (4) o...
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WO/2018/083951A1 |
Provided is a sputtering target for magnetic recording media, which is capable of forming a magnetic thin film that is reduced in size and center-to-center spacing of magnetic crystal grains, while maintaining good magnetic characteristi...
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WO/2018/083819A1 |
A magnetic material of a compound having a magnetocalorific effect is manufactured via a step for generating a product by reacting a raw material that constitutes the magnetic material in a melt that contains an alkali metal, and a step ...
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WO/2018/078269A1 |
The invention relates to a superalloy based on nickel, comprising, in mass percentages, 4.0 to 6.0 % of chromium, 0.4 to 0.8 % of molybdenum, 2.5 to 3.5 % of rhenium, 6.2 to 6.6 % of tungsten, 5.2 to 5.7 % of aluminium, 0.0 to 1.6 % of t...
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WO/2018/079073A1 |
The present invention provides a Co-free heat-resistant alloy for hearth metal members that exhibits properties equal to or superior to those of Co-containing heat-resistant steel. The heat-resistant alloy for hearth metal members accord...
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WO/2018/069666A1 |
A nickel-based alloy composition consisting, in weight percent, of: between 4.0% and 6.9% aluminium, between 0.0% and 23.4% cobalt, between 9.1% and 1 1.9% chromium, between 0.1 % and 4.0% molybdenum, between 0.6% and 3.7% niobium, betwe...
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WO/2018/069672A1 |
The present invention relates to nickel alloys suitable for use in high temperature environments. For example, the nickel alloys of the present invention can be used in temperatures above 800 °C. The nickel alloys may be used in the aut...
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WO/2018/071328A1 |
A nickel-base alloy is disclosed that has the following weight percent composition. C about 0.005 to about 0.06 Cr about 13 to about 17 Fe about 4 to about 20 Mo about 3 to about 9 W up to about 8 Co up to about 12 Al about 1 to about 3 ...
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WO/2018/066643A1 |
This method for producing turbine vane includes a brazing step in which a turbine vane substrate having a brazing material positioned thereupon is heated to melt the brazing material and bond the same to the substrate, a stabilization st...
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WO/2018/066709A1 |
Provided are: a nickel material which has excellent corrosion resistance and high strength; and a method for producing this nickel material. A nickel material according to one embodiment of the present invention has a chemical compositio...
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WO/2018/066644A1 |
This method for producing turbine vane includes a brazing step in which, in a state in which the substrate of a turbine vane having a brazing material positioned thereupon is positioned within a predetermined furnace having a heater, the...
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WO/2018/066573A1 |
An austenitic heat-resistant alloy having a chemical composition containing, in mass%, 0.04-0.18% of C, 1.5% or less of Si, 2.0% or less of Mn, 0.020% or less of P, 0.030% or less of S, 0.10% or less of Cu, 20.0-30.0% of Ni, 21.0-24.0% o...
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WO/2018/061317A1 |
Provided are a method of manufacturing a precipitation-strengthened Ni-based super heat resistant alloy extruded material with a high gamma prime content and an Ni-based super heat resistant alloy extruded material. This method of manufa...
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