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WO/2020/040128A1 |
This brazing material, for brazing aluminum or an aluminum alloy, contains a fluoride-base flux, a solidifying agent, and an organic viscosity reducing agent, and is solid at 25°C.
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WO/2020/039497A1 |
This brazing material, for brazing aluminum or an aluminum alloy, contains a fluoride-base flux, wax, and an organic viscosity reducing agent, and is solid it 25°C.
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WO/2020/036634A2 |
An aluminum alloy in powder or wire form specifically formulated for additive manufacturing can include predominately aluminum and about 5-9 % copper, about 1-5% silver, and optionally 0.1% - 0.6% magnesium, and up to 0.5% of titanium an...
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WO/2020/028730A1 |
A high performance die castable aluminum alloy is described, wherein the aluminum alloy is characterized as having a high yield strength and high conductivity, and also a high flowability and low susceptibility to hot tearing when die cast.
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WO/2020/022380A1 |
Disclosed are: an aluminum alloy sheet for a magnetic disk, the sheet comprising 0.1-3.0 mass% (hereinafter, simply represented as "%") of Fe, 0.1-3.0% of Mn, 0.003-1.000% of Cu, and 0.005-1.000% of Zn, wherein, in a region (A) covering ...
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WO/2020/023367A1 |
Provided herein are highly-formable aluminum alloys and methods of making such alloys. The method of preparing aluminum alloys described herein can include a low final cold reduction step and/or an optional inter-annealing step to produc...
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WO/2020/023375A1 |
Provided herein are highly formable aluminum alloys and methods of making the same. The highly formable aluminum alloys described herein can be prepared from recycled materials without significant addition of primary aluminum alloy mater...
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WO/2020/020382A1 |
Provided is a high thermal conductivity aluminium alloy, containing the following components in percentage by weight: 80-90% Al, 6.5-8.5% Si, 0.2-0.5% Fe, 0.8-3% Zn, 0.03-0.05% V, 0.01-1% Sr, and 0.02-0.08% graphene. The high thermal con...
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WO/2020/016506A1 |
The invention relates to the process for manufacturing a rolled product based on an aluminum alloy in particular for the automotive industry wherein, successively, a bath of liquid metal made from an aluminum-based alloy comprising 4 to ...
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WO/2020/016283A1 |
The invention relates to a cold-hardening aluminum die-casting alloy containing, in addition to a main moiety of aluminum: - 12.2 to 13.0 wt.% silicon (Si); - 2.1 to 2.4 wt.% copper (Cu); - 0.6 to 1.7 wt.% magnesium (Mg); - 0.7 to 1.0 wt...
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WO/2020/012098A1 |
The invention relates to a process for manufacturing a part, involving forming consecutive solid metal layers (201..20n) that are stacked on top of one another, each layer describing a pattern defined on the basis of a numerical model {M...
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WO/2020/013234A1 |
This aluminum alloy foil has a surface layer which is a region within 2 μm from the surface in the thickness direction thereof, and a middle layer which is the remaining region of the aluminum alloy foil, wherein the concentration of Fe...
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WO/2020/008704A1 |
Provided is an aluminum alloy member that is for forming a fluoride film, and that has excellent smoothness without occurrence of a black dot-shaped bulged portion, and excellent corrosion resistance against a corrosive gas, plasma, etc....
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WO/2020/010209A1 |
An alloy of Calcium (Ca), Aluminum (Al) and Silicon (Si), useful in the processing of metal alloys, and process for their production is described.
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WO/2020/010206A1 |
An alloy of Calcium (Ca), Aluminum (Al) and Silicon (Si), useful in the processing of metal alloys, and process for their production is described.
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WO/2020/008809A1 |
This aluminum alloy material has: a composition which contains 3-10 mass% of Fe and in which the remaining part comprises Al and unavoidable impurities; and a structure which includes a mother phase and a compound. The mother phase chief...
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WO/2020/007437A1 |
The invention relates to an aluminum alloy having 0.04 - 0.1 wgt.-% Si, 0.8 - 1.8 wgt.-% Cu, 1.5 - 2.3 wgt.-% Mg, 0.15 - 0.6 wgt.-% Ag, 7.05 - 9.2 wgt.-% Zn, 0.08 - 0.14 wgt.-% Zr, 0.02 - 0.08 wgt.-% Ti, max. 0.35 wgt.-% Mn, max. 0.1 wgt...
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WO/2020/003666A1 |
[Problem] The purpose of the present invention is to provide: an aluminum alloy target which enables the formation of an aluminum alloy film having excellent bending resistance and heat resistance; and a method for producing an aluminum ...
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WO/2020/002324A1 |
The invention relates to a method for producing an aluminium strip (62) having greater strength and greater electrical conductivity, in which a melt (54) of a curable aluminium alloy is cast by a continuous casting process, in particular...
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WO/2020/005376A1 |
The present disclosure relates to various embodiments of metal alloy and in particular a method for producing an aluminum alloy product comprising the steps of placing an additive manufacturing alloy feedstock in a pressurizable containe...
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WO/2020/002813A1 |
The invention relates to a process for manufacturing a part comprising a formation of successive solid metal layers (20i...20n), superposed on one another, each layer describing a pattern defined using a numerical model {M), each layer b...
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WO/2020/003667A1 |
[Problem] To provide an aluminum alloy film having excellent bending resistance and heat resistance, and a thin film transistor which is provided with said aluminum alloy film. [Solution] To solve the problem, an aluminum alloy film acco...
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WO/2019/244999A1 |
When the areal ratio of an Mg oxide 7b present on grain boundaries constituting a matrix texture 3 and on the interface between the matrix texture 3 and a carbon fiber 5 is 4 to 15%, good mechanical properties can be obtained. If the are...
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WO/2019/245000A1 |
It is desirable that the average value of lengths L1 of the longer axes of columnar metal crystal grains is 5.0 μm or less and the average value of maximum lengths L2 of the shorter axes of the columnar metal crystal grains is 2.0 μm o...
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WO/2019/245570A1 |
An apparatus, material and method for forming a brazing sheet has a high strength core bonded with corrosion protection layer on the coolant side and/or layers on both airside and coolant side. The material enables heat exchanger compone...
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WO/2019/243411A1 |
The invention relates to: an aluminum alloy, in particular a cast aluminum alloy; a method for producing an engine component, in particular a piston for an internal combustion engine, in which an aluminum alloy is cast in the gravity per...
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WO/2019/245720A1 |
New aluminum alloys having iron, manganese, and silicon are disclosed. The new alloys may include 0.5 - 16.5 wt. % Fe, 0.5 - 16.5 wt. % Mn, 4 to 20 wt. % Si, not greater than 1.0 wt. % Cu, where the wt. % Fe plus the wt. % Mn is from 2.5...
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WO/2019/244411A1 |
An aluminum alloy fin material for heat exchangers which has high strength and excellent buckling resistance is provided as a fin material which has excellent moldability during a corrugation processing and also has proper pre-brazing st...
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WO/2019/245784A1 |
New aluminum alloy products are disclosed. The new aluminum alloy products generally include (a) 1 - 15 wt. % of Class A metals, wherein the Class A metals comprise at least one of manganese (Mn), iron (Fe), cobalt (Co) and nickel (Ni), ...
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WO/2019/238449A1 |
The invention relates to amethod of manufacturing an Al-Mg-Mn aluminium alloy plate product having a final gauge in the range of 3 mm or more, the method com- prising the steps of:(a) providing a rolling feedstock material of an aluminiu...
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WO/2019/238509A1 |
The invention relates to a method of manufacturing an 7xxx-seriesaluminium alloy plate product having improved fatigue failure resistance, the method comprising the steps of (a) casting an ingot made of an aluminium alloy of the 7xxx-ser...
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WO/2019/241070A1 |
Provided herein are novel aluminum alloy compositions and methods of making and processing the same. The alloys described herein can be used in bottle making applications and exhibit enhanced runnability, formability, and appearance. The...
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WO/2019/234326A1 |
The invention concerns a method for manufacturing a thin sheet made of aluminium-based alloy comprising, in per cent by weight, 2.3 to 2.7% Cu,1.3 to 1.6% Li, 0.2 to 0.5% Mg, 0.1 to 0.5% Mn, 0.01 to 0.15% Ti, a quantity of Zn less than 0...
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WO/2019/232374A1 |
Described herein are levelled and degreased aluminum alloys with a reduced gauge for can body stock production. The aluminum alloys exhibit improved formability. Also described herein are methods for processing the aluminum alloys to pro...
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WO/2019/228416A1 |
Disclosed are a die-casting aluminum alloy and a preparation method and application thereof. On the basis of the total weight of the aluminum alloy, it comprising: 8-11% by weight of Si, 2.5-5% by weight of Cu, 0.5-1.5% by weight of Mg, ...
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WO/2019/230722A1 |
This aluminum alloy plate comprises an aluminum alloy containing Fe: 1.00 to 2.20 mass% and Mn: 0.10 to 1.00 mass%, the balance being Al and unavoidable impurities. The aluminum alloy plate, which has been subjected to rolling, is charac...
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WO/2019/225512A1 |
An aluminum alloy heat exchanger to be used in an environment where the atmosphere side is a diluted chloride ion environment of 1,000 ppm or less, and characterized in that: the core material thereof comprises an aluminum alloy which co...
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WO/2019/224063A1 |
The invention relates to a brazed heat exchanger incorporating an aluminium alloy baseplate and wherein the baseplate is made from an aluminium alloy having a composition, in wt.%, of:Mn 0.8-1.8, Cu 0.15-1.20, Si 0.25–1.30, Mg 0.10-0.6...
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WO/2019/225098A1 |
Provided is a sliding member that can exhibit an anti-wear effect brought about by Si particles. The present invention is a sliding member including 7.0 to 13.0mass% inclusive of Sn, 6.5 to 12.0mass% inclusive of Si, 0.5 to 3.0mass% incl...
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WO/2019/226731A1 |
A cobalt based superalloy and a method of producing the same. The superalloy includes a nominal composition comprising at least cobalt, aluminum, Z and vanadium, Z being at least one of tantalum and niobium, processed such that the super...
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WO/2019/226063A1 |
The invention relates to the field of metallurgy, and specifically to a composition and technique for producing blanks and components from aluminum-based alloys, including by using selective laser melting techniques. The proposed aluminu...
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WO/2019/186021A9 |
The invention relates to an aluminium-composite hybrid part comprising a stack of layers formed by alternating metallic layers made of an aluminium alloy and composite layers, characterized in that at least one of the layers is a metalli...
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WO/2019/224064A1 |
The invention relates to a shaped, small diameter brazing preform for brazing components to one another, the preform comprising a length of aluminium-based filler alloy wire having a continuous, uniform cavity in a centre of the preform ...
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WO/2019/225511A1 |
An aluminum alloy heat exchanger to be used in an environment where the atmosphere side is a diluted chloride ion environment of 1,000 ppm or less, and characterized in that: the core material thereof comprises an aluminum alloy which co...
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WO/2019/222236A1 |
Provided are new high strength 6xxx and 7xxx series aluminum alloys and methods of making aluminum products thereof. These aluminum products may be used to fabricate components which may replace steel in a variety of applications includi...
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WO/2019/220592A1 |
An Al plated steel sheet characterized by: the average composition of Al in an Al plating layer being at least 85% by mass, Si being 4%–12% by mass; the plating adhesion amount being at least 30 g/m2; the Si area ratio of the plating s...
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WO/2019/222177A1 |
Disclosed herein are aluminum alloy products and methods of making the aluminum alloy products. Specifically, disclosed herein is an aluminum alloy provided in a temper achieved by rapidly quenching the aluminum alloy product after hot r...
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WO/2019/219453A1 |
The invention relates to a method of manufacturing a rolled Al-Mg-Mn alloy plate product comprising the steps of: (a) providing a rolling feedstock material of an Al- Mg-Mn alloy having a composition comprising of, in wt.%, Mg 4.8-6.0%, ...
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WO/2019/214242A1 |
An aluminum alloy strip for a battery and a preparation method therefor. The aluminum alloy strip comprises, by weight percentage, the following alloy components: Si: 0.71-0.75%, Fe: 0.65-0.68%, Cu: 0.11-0.14%, Mn: 0.06-0.068%, Mg: 0.04-...
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WO/2019/214243A1 |
Disclosed is a 1100 alloy aluminum foil for a lithium battery, characterized in comprising the following components in mass percent: Fe: 0.4%-0.5%, Si: 0.1%-0.2%, Cu: 0.1%-0.15%, Ti: 0.01%-0.02%, Sc: 0.03%-0.07%, Ce: 0.03%-0.07...
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