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JP6199191B2 |
To provide a bonded material whose fire retardancy is secured while saving weight and which can be easily manufactured, to provide a manufacturing method thereof, to provide a body structure of a railroad vehicle, and to provide a body s...
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JP6199073B2 |
To provide a method for producing a magnesium alloy having excellent strength and ductility even if being added with Ca.One embodiment of this invention is a method for producing a magnesium alloy having a process of rolling a magnesium ...
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JP2017160542A |
To provide a magnesium alloy casting material having excellent flame retardancy and workability, and a magnesium alloy cast coil material, a wrought magnesium alloy material, a magnesium alloy member, a magnesium alloy joint material, an...
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JP2017160495A |
To provide a magnesium alloy excellent in heat resistance which hardly generates cracks and a cast member.There is provided a magnesium alloy having a structure containing, by mass%, Al of 1.0% to 3.0%, rare earth element of 1.5% to 3.0%...
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JP2017525843A |
The present invention relates to magnesium alloys suitable for use as corrosive downhaul articles, which have a corrosion rate of at least 50 mg / cm in 15% KCl at 93 ° C.2It is / day and has a 0.2% proof stress of at least 50 MPa when ...
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JP2017155291A |
To provide a method for manufacturing an aluminum alloy laminate molded body capable of being supplied to practical uses by controlling temperature during lamination to make high strength.There is provided a method for manufacturing an a...
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JP6179693B1 |
It has steel materials, the plating layer covered by the surface of the above-mentioned steel materials, and the interface alloy layer formed in the boundary of the above-mentioned steel materials and the above-mentioned plating layer, a...
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JP6176885B2 |
A p-type thermoelectric material according to one aspect of the present invention is configured such that at least any one of a Mg site, a Si site, a Sn site and/or a Ge site in a compound composed of magnesium (Mg), silicon (Si), tin (S...
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JP6176424B1 |
Steel materials and a plating layer which it is covered by the surface of the steel materials and the remainder becomes from Zn and impurities including eight to Mg:50 mass %, 2.5 to aluminum:70.0 mass %, 0.30 to Ca:5.00 mass %, etc., Ka...
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JP2017130596A |
To provide a thermoelectric conversion module capable of relaxing the stress occurring in a thermoelectric conversion element and an electrode during operation of the thermoelectric conversion module.A thermoelectric conversion module in...
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JP6170046B2 |
A method for producing a medical implant, such as a bone screw, a bone nail, a bone pin, a plate, a suture anchor, etc. for fastening soft parts, such as tendons, muscles, and ligaments, to a bone, or in the form of an endoprosthesis or ...
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JP2017519538A |
The subject of the present invention is a method for surface treatment of a biocorrosive implant using an electrochemical reaction, a) a step of providing an implant of a biocorrosive magnesium alloy, and b) a pH of 9 to 13 for the impla...
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JP6164675B2 |
The purpose of the present invention is to provide a device for fixing biological soft tissue, the device being composed of a magnesium-based alloy material, wherein the device is endowed with strength and deformation performance for bei...
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JP6166798B2 |
The present invention discloses a Mg—Ca—Zn—Zr magnesium alloy sheet, having the chemical compositions in weight percentage: Ca: 0.5˜1.0%, Zn: 0.4˜1.0%, Zr: 0.5˜1.0%, the remainders being Mg and unavoidable impurities; wherein th...
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JP6161589B2 |
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JP6156110B2 |
To provide a nanocomposite producible even using raw material more inexpensive and having larger grain sizes compared with the conventional one, and a method for producing the same.Provided is a nanocomposite containing an MgX phase, an ...
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JP6157484B2 |
The invention relates to biodegradable, metal alloy-containing compositions, methods for their preparation and applications for their use. The compositions include magnesium and other components, such as yttrium, calcium, silver, cerium,...
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JP2017108093A |
To provide a method for producing MgSi based thermoelectric materials with high efficiency (high reaction rate) using microwave heating.The method for producing a thermoelectric material includes steps of: preparing a raw material mixtur...
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JP2017098461A |
To provide a thermoelectric material which is low in carrier concentration even if processed into nanoparticles.A thermoelectric material comprises: a matrix phase including magnesium silicide; and a grain boundary phase including at lea...
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JP6135835B1 |
In the cross sectional view at the time of cutting this cladding material (10) to the 1st layer (11) that comprises a Mg-Li basis alloy, the 2nd layer (12) that comprises an aluminum machine alloy, and a thickness direction, It is arrang...
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JP6136037B2 |
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JP2017080775A |
To provide a magnesium alloy plate material and a magnesium alloy shape improved with mechanical characteristics and heat resistance.A production method of a magnesium alloy plate material containing 0.01 atom% or more and 10 atom% or le...
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JP6128158B2 |
To provide a molten Mg-Zn-based alloy plated steel capable of reconciling adhesiveness with corrosion resistance, while containing high-concentration Mg, concerning a molten metal-based alloy plated steel.A molten Mg-Zn-based alloy plate...
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JP2017078220A |
To provide a magnesium alloy rolled material having high ductility at a recrystallization temperature or lower, a production method therefor and a press-formed article.The magnesium alloy rolled material contains Al of 0.3 mass% or more ...
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JP6120380B2 |
A magnesium alloy of the present invention has the chemical composition that contains 0.02 mol% or more and less than 0.1 mol% of at least one element selected from yttrium, scandium, and lanthanoid rare earth elements, and magnesium and...
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JP6106600B2 |
Provided is an aluminum (Al) plating layer/aluminum (Al)-magnesium (Mg) plating layer multi-layered structure alloy plated steel sheet having excellent plating adhesiveness and corrosion resistance, which is characterized in that the Al-...
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JP6108489B2 |
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JP6101229B2 |
To provide a method for producing hydrocarbons, in which the yield of hydrocarbons is made higher even under a normal-temperature and normal-pressure condition.The method for producing hydrocarbons comprises a step of bringing metal magn...
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JP6099257B2 |
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JP6099656B2 |
Disclosed herein is a non-heat treatable magnesium alloy sheet, including: 1 ¼ 3 wt% of aluminum (Al); 0.5 ¼ 3 wt% of tin (Sn); and a balance of magnesium, wherein the maximum deviation of average Vickers hardness (Hv) thereof, cau...
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JP6094867B2 |
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JP6089353B2 |
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JP6089352B2 |
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JPWO2014171548A1 |
The present invention relates to a method for producing a flame-retardant magnesium alloy having mechanical properties of a long-period laminated magnesium alloy and having an ignition temperature of 800 ° C. or higher. It contains Zn i...
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JP6080067B2 |
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JP6075513B1 |
It has a metallic coating layer located in the surface of at least 1 side of a steel plate, a chemical component of a metallic coating layer contains Mg, Zn, and aluminum, and a quasicrystal content plating steel plate concerning the pre...
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JP6071154B2 |
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JP6065346B2 |
A formed product of a magnesium alloy having excellent impact resistance and a magnesium alloy sheet suitable as a material for the formed product are provided. The formed product is produced by press-forming a magnesium alloy sheet havi...
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JP6066433B2 |
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JP6066436B2 |
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JP2017501756A |
Bioerodible body prostheses consist of 50 to 92 weight percent magnesium and at least 5.5 weight percent of one or more elements selected from the group consisting of Ho, Er, Lu, Tb, and Tm, and Y. Includes a bioerodible magnesium alloy ...
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JP2017007885A |
To provide a powder for conducive filler excellent in conductivity, capable of being obtained at low cost and having light weight.A material of particles of a powder for conductive filler is an alloy containing Al, Ag, Si, a conductive e...
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JP2016219666A |
To provide: a magnesium silicide-based thermoelectric material having superior ZT even with the thermoelectric material containing a large quantity of Al in order to prevent splitting and cracking; and a method for manufacturing such a t...
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JP2016540128A |
Implants for growing patients containing Mg-Zn-Ca based alloys, their manufacturing methods and their use are shown. To meet the extremely high requirements for compatibility and chemical and mechanical strength, the alloys are 0.1-0.6% ...
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JP6048216B2 |
A magnesium-based alloy powder is made of a magnesium-based alloy that contains 0.2 mass % to 5 mass % of calcium, wherein the magnesium-based alloy powder has an average particle diameter of 100 μm to 1,500 μm, wherein the magnesium-b...
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JP6048217B2 |
A magnesium-based alloy powder is provided that comprises a magnesium-based alloy containing 0.2 mass % to 5 mass % of calcium. The magnesium-based alloy powder has an average particle diameter of 100 μm to 1,500 μm. The mean value of ...
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JP6048768B2 |
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JP2016204678A |
To provide an Mg alloy excellent in thermal conductivity.It consists of a magnesium-zinc-based alloy containing Zn of 2 to 15% by mass% and contains solid particles of 0.5 to 50 vol.% with lower Zn content than whole Zn content.SELECTED ...
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JP6040488B2 |
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JP6035672B2 |
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