| Document |
Document Title |
|
WO/2023/029607A1 |
The present invention relates to the technical field of masts for ships, and specifically relates to a method for preparing an impact-resistant mast for ships, comprising the following steps: (1) preparing a column rod core material; (2)...
|
|
WO/2023/032911A1 |
Provided is an aluminum alloy ingot comprising 0.15-1.0 mass% Cu, 0.6-1.2 mass% Mg, 0.95-1.35 mass% Si, 0.4-0.6 mass% Mn, 0.15-0.70 mass% Fe, 0.09-0.25 mass% Cr, and 0.012-0.035 mass% Ti, the remainder being Al and unavoidable impurities...
|
|
WO/2023/028994A1 |
An environment-friendly lightweight alloy material for the production of an electric vehicle undertray, relating to the technical field of electric vehicle undertray production. The specific production steps comprise: S1, preparation of ...
|
|
WO/2023/033120A1 |
This aluminum member (1) for semiconductor manufacturing devices comprises: a base material (2) comprising aluminum or an aluminum alloy; and an anodic oxidation coating film (3) formed on the base material (2). Heterogeneous particles (...
|
|
WO/2023/028070A1 |
Methods of making new 2xxx aluminum alloy sheet products are disclosed. In one approach, a method comprises artificially aging a 2xxx aluminum alloy in at least two-steps. In one embodiment, the first aging step comprises first aging a 2...
|
|
WO/2023/023705A1 |
The present invention provides an aluminium based alloy consisting essentially of a weight percentage composition of: silicon: 1.5 to 2.5 % magnesium: 0.1 to 0.6 % titanium: 0.06 to 0.4 % manganese: <0.6 % iron: <0.6 % chromium: <0.01 % ...
|
|
WO/2023/023704A1 |
An aluminium based alloy consisting essentially of (wt%): silicon: 4.0 to 8.5% magnesium: 0.07 to 0.3% titanium: 0.06 to 0.2% manganese: <0.05% iron: <0.15% chromium: <0.01% nickel: <0.01% copper: 2.5 to 4% zinc: 0 to 0.5% strontium: >0....
|
|
WO/2023/019697A1 |
A high-strength aluminum alloy powder for 3D printing and a preparation method for the high-strength aluminum alloy powder, relating to the technical field of special materials for additive manufacturing (also known as 3D printing). The ...
|
|
WO/2023/021915A1 |
Provided is an aluminum alloy extruded tube for a heat exchanger, characterized by having a tube body composed of an Mn-containing aluminum alloy and a coating film formed on the surface of the tube body, and the coating film being such ...
|
|
WO/2023/015608A1 |
A high strength, high conductivity, intergranular corrosion-resistant aluminum alloy and a preparation method therefor. The high strength, high conductivity, intergranular corrosion-resistant aluminum alloy comprises the following compon...
|
|
WO/2023/015578A1 |
An Al-Si-Cu-Fe-Mn alloy having ultra-high Fe content and a preparation method therefor. By using an Al-Si-Cu alloy as a base, the components are designed. By "replacing Cu with Fe", the Cu content is reduced, the Fe content is increased,...
|
|
WO/2023/012539A1 |
The invention deals with a top cover of battery pack comprising a metallic coated steel sheet wherein said metallic coating is based on aluminium and comprises optionally silicon and unavoidable impurities.
|
|
WO/2023/012499A1 |
The invention deals with a top cover of battery pack comprising a metallic coated steel sheet wherein said metallic coating is based on aluminium and comprises optionally silicon and unavoidable impurities.
|
|
WO/2023/013238A1 |
Provided is an aluminum alloy plate for molding characterized in that when hardness (Hv) is measured at intervals of 1/16 of a plate thickness in the plate thickness direction from the 1/2 depth position of the plate thickness to the pla...
|
|
WO/2023/013956A1 |
An aluminum alloy extruded material and an electronic device housing comprising same are disclosed. According to various embodiments, the aluminum alloy extrusion material comprises aluminum, zinc, magnesium, and copper, and the amounts ...
|
|
WO/2023/015071A1 |
Brazing sheets, articles formed from or including all or a portion of brazing sheets, and methods of forming articles are provided. A brazing sheet comprising a core layer, a brazing layer, and an interliner layer intermediate the core l...
|
|
WO/2023/008499A1 |
An aluminum alloy fin material according to the present invention is formed of an aluminum alloy which has a composition that contains, in mass%, 0.8% to 1.8% of Mn, 0.15% to 0.8% of Si, 0.01% to 0.30% of Fe and 2.0% to 4.0% of Zn, with ...
|
|
WO/2023/004852A1 |
A 6060A-T5 material for a blade battery profile and a processing process therefor, the formulation comprising: silicon, iron, copper, manganese, chromium, zinc, titanium, magnesium, zirconium, and the balance of aluminium, the mass perce...
|
|
WO/2023/004862A1 |
A high-strength rare earth-reinforced aluminum alloy and a preparation method therefor. The formula comprises: an aluminum ingot, a copper ingot, a lead ingot, an aluminum-tin intermediate alloy, an aluminum-yttrium intermediate alloy, a...
|
|
WO/2023/004850A1 |
A lightweight high-silicon aluminum alloy die casting member and a preparation method therefor, the ingredients comprising: Si, Mn, Cu, Ti, Al, Mg, Zn and a modifier. The parts by weight of each component are: 18-22 parts of Si, 0.1-0.2 ...
|
|
WO/2023/003785A1 |
[0086] New 6xxx aluminum alloy sheet products are disclosed. In one embodiment, a new 6xxx aluminum alloy sheet product includes from 0.95 to 1.25 wt. % Si, from 0.65 to 0.95 wt. % Mg, wherein (wt. % Mg) / (wt. % Si) is not greater than ...
|
|
WO/2023/002441A1 |
Described herein are armour components for civil or military vehicles made of high-strength 7XXX-series aluminium alloys requiring ballistic protection. For example, described herein are armour components used for manufacturing armour hu...
|
|
WO/2023/004131A1 |
Provided herein are aluminum alloy compositions having high conductivity. Low conductivity parent materials are also described.
|
|
WO/2023/287981A1 |
A powder metal composition comprising an aluminum (Al) powder metal, an aluminum-copper (Al-Cu) powder metal, a magnesium (Mg) powder metal, a tin ( Sn) powder metal, an aluminum-silicon (Al-Si) powder metal, and aluminum nitride (AIN) a...
|
|
WO/2023/286870A1 |
This aluminum alloy, for an extruded element pipe (1) provided with an inner surface linear groove, is for the production of pipes provided with an inner surface helical groove. When D (mm) and t (mm) respectively represent the outer dia...
|
|
WO/2023/286706A1 |
Provided is an Al-plated steel sheet with which it is possible to suppress hydrogen embrittlement that progresses due to hydrogen entering a steel material with oxidation of Al plating during hot stamp molding. This Al-plated steel sheet...
|
|
WO/2023/282565A1 |
The present invention provides: a method for partially reducing vanadium pentoxide (V2O5) using an ammonia solution: wherein ammonia is used to convert vanadium pentoxide (V2O5) powder to ammonia vanadate (NH4VO3), which is an intermedia...
|
|
WO/2023/281841A1 |
This method for manufacturing a metal porous body formed from a metal material includes: a step for preparing the metal material and a shaped body containing a support powder; a step for generating a composite shaped body, in which the m...
|
|
WO/2023/279493A1 |
A high-strength and high-toughness impact-resistant energy-absorbing Al-Mg-Si alloy. The Al-Mg-Si alloy comprises, in percentage by mass: 0.40-1.00% of Mg, 0.50-0.90% of Si, 0.60% or less of Mn, 0.30% or less of Cr, 0.25% or less of Fe, ...
|
|
WO/2023/275461A1 |
The invention relates to a method for manufacturing a 6061 aluminium alloy part, which is chemically modified by adding zirconium, comprising the following steps: i) printing a 6061 aluminium alloy part by additive manufacturing, in part...
|
|
WO/2023/277108A1 |
An outer package material for power storage devices, the outer package material being composed of a multilayer body which sequentially comprises at least a base material layer, a barrier layer and a thermally fusible resin layer in this ...
|
|
WO/2023/276572A1 |
The present invention relates to: an aluminum alloy plate for magnetic discs which comprises 1.0-6.5 mass% Mg and 0.10-0.30 mass% Cr, and in which Si is not more than 0.20 mass% and Cu is not more than 1.00 mass%, said aluminum alloy pla...
|
|
WO/2023/278878A1 |
Alloy materials and three-dimensional (3-D) printed alloys are disclosed. An alloy in accordance with an aspect of the present disclosure comprises aluminum, magnesium, and silicon wherein a composition of the alloy comprises from at lea...
|
|
WO/2023/276504A1 |
Provided is an aluminum alloy extruded material which has a component composition consisting of 3.0-6.0 mass% of Zn, 0.4-1.4 mass% of Mg, 0.05-0.2 mass% of Fe, 0.05-0.4 mass% of Cu, 0.005-0.2 mass% of Ti, 0.1-0.3 mass% of Zr, and 0.050-0...
|
|
WO/2023/276681A1 |
This aluminum alloy foil has a compositional makeup including 0.5 mass% or less of Si, 0.2-2.0 mass% of Fe, and more than 1.5 mass% but not more than 5.0 mass% of Mg, the remaining portion being Al and unavoidable impurities. In the alum...
|
|
WO/2023/276688A1 |
This aluminum alloy foil has a composition that contains less than or equal to 0.5 mass% of Si, 0.2-2.0 mass% of Fe and 0.10-1.5 mass% of Mg, the remainder being Al and unavoidable impurities, wherein the ratio of the length L1 of the hi...
|
|
WO/2022/269021A1 |
The invention relates to a method for producing a flat steel product (10) having a flat steel base (12) and a zinc- or aluminium-based metal coating (14) on at least one surface (16) of the flat steel base (12), said flat steel base (12)...
|
|
WO/2022/270483A1 |
This hydrogen embrittlement prevention agent for an aluminum alloy material can prevent hydrogen embrittlement in an aluminum alloy material, and is for a use in which the hydrogen embrittlement prevention agent is included as second pha...
|
|
WO/2022/272301A1 |
A sliding element, such as a bearing, and a method of manufacturing the sliding element, is provided. The sliding element is formed of an aluminum alloy material which includes zinc in an amount of 5 wt. % to 83 wt. %. The sliding elemen...
|
|
WO/2022/264959A1 |
The present invention provides an aluminum alloy extrusion having a high tensile strength and a high offset yield strength at low cost. The aluminum alloy extrusion comprises 0.90 mass% to 2.00 mass% Si, 0.65 mass% to 0.90 mass% Mg, 0....
|
|
WO/2022/263782A1 |
The invention relates to the field of 6xxx series aluminium alloy strips and to a process for manufacturing same. These strips are particularly useful for producing bodywork parts for motor vehicles on account of the compromise they offe...
|
|
WO/2022/264767A1 |
An aluminum alloy according to the present invention has a chemical composition that contains 0.01% by mass to 0.40% by mass of Sc, 0% by mass to 2.5% by mass of Mg and 0% by mass to 0.4% by mass of Zr, with the balance being made up of ...
|
|
WO/2022/259136A1 |
Aluminium casting alloy, comprising, expressed in weight percent, from 3.5 % to 4.5 % of silicon; from 0.35 % to 0.55 % of magnesium; from 0.05 % to 0.25 % of chromium; from 0.05 % to 0.30 % of nickel; from 0.005 % to 0.020 % of strontiu...
|
|
WO/2022/258783A1 |
Modified Cast Metal Object The invention relates to cast metal objects that are prepared by casting a liquid precursor comprising one or more molten metal and an additive.
|
|
WO/2022/260026A1 |
This TiAl alloy contains 47–50 at% of Al, 1–2 at% of Nb, 2–5 at% of Zr, and 0.05–0.3 at% of B, with the remainder comprising Ti and unavoidable impurities.
|
|
WO/2022/258457A1 |
The invention concerns a method to make an aluminium alloy sheet product wherein successively, a slab is cast of an aluminium alloy comprising, by weight % Mn: 0.9 –1.2, Fe: 0.5 – 0.8, Si: 0.05 – 0.25, Cu: 0.06 – 0.20, Ti: ≤ 0....
|
|
WO/2022/257749A1 |
Disclosed in the present invention are a pre-coated steel plate for hot forming and a preparation method therefor, and a hot-formed steel member and an application thereof. In the pre-coated steel plate and the preparation method therefo...
|
|
WO/2022/255285A1 |
This aluminum alloy for casting contains 1.0-10.0 mass% of Ni, 8.01-18.0 mass% of Cu and 0.01-0.75 mass% of Mn, the remainder being Al and unavoidable elements.
|
|
WO/2022/249665A1 |
This aluminum alloy has a composition containing 0.6-1.5 mass% of silicon, 0.5-1.3 mass% of magnesium, 0.3-1.2 (exclusive of 0.3) mass% of copper, and 0.2-1.15 mass% of manganese, with the remainder consisting of aluminum and inevitable ...
|
|
WO/2022/248465A1 |
The invention concerns an improved alloy to obtain AA6xxx alloy extrusions with high strength, typically having an ultimate tensile strength higher than 390 MPa, and high processability, in particular with a high productivity, as well as...
|
