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JP2019000869A |
To provide a welding material of magnesium alloy in which an extremely deep penetration is obtained; thermal effect width is narrow; and a sufficient welding strength is secured, and also to provide a method for production thereof, a bod...
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JP6440062B2 |
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JP6439683B2 |
A method of manufacturing a flame-retardant magnesium alloy having mechanical properties of a long period stacking ordered magnesium alloy and having an ignition temperature of 800°C or more is provided. The method of manufacturing a fl...
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JP2018193592A |
To provide a magnesium alloy capable of achieving fire retardant, strength and ductility (called "Mg alloy").The Mg alloy consists of, by mass%, Al:4 to 6%, Ca:0.2 to 0.8%, and the balance:Mg with impurities. Especially 5.5≤X+5Y≤9 is...
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JP6432344B2 |
To provide a magnesium alloy having high incombustibility, high strength and high ductility together. A magnesium alloy including Ca in an amount of "a" atomic %, Al in an amount of "b" atomic % and a residue of Mg, including (Mg, Al) 2 ...
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JP6431957B2 |
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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JP6425919B2 |
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JP2018177554A |
To provide a production method of Mg-Si alloy fine particles having uniform composition by a solid-solid phase reaction.A method is provided to produce fine Mg2Si particles having the average particle size D50 of 100 μm or less by accom...
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JP2018178162A |
To provide a manufacturing method of a thermoelectric material capable of doping Li as an acceptor to a Mg-Si-Sn-based thermoelectric material without reducing thermoelectric property.There is provided a manufacturing method of a thermoe...
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JP6422304B2 |
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JP6414137B2 |
A thermoelectric conversion device including an n-type thermoelectric converter, a p-type thermoelectric converter, a high temperature-side electrode with which one end of the n-type thermoelectric converter and one end of the p-type the...
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JP6408037B2 |
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JP6404803B2 |
A magnesium alloy is disclosed. The magnesium alloy includes magnesium (Mg), 6-12 wt % of lithium (Li) and 1-10 wt % of aluminum (Al). A temperature range between a solidus and a liquidus of the magnesium alloy is equal to or larger than...
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JP2018158601A |
To provide a bicycle that realizes a lightweight bodywork, ensures mechanical strength, and is particularly suitable as a folding bicycle.A bicycle includes as frame component members a top tube 2, a pair of right and left back forks 4b ...
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JP6403290B2 |
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JP2018527459A |
Various Mgs that are particularly suitable for hydrogen storage applications, as well as at least one alloy of Cu, Si, Ni and Na alloys. The alloys of the present invention are formed in binary and ternary systems. The alloy is essential...
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JP6390662B2 |
A method for producing a thermoelectric material, comprising: mixing an Sn powder and a powder containing a first dopant element to obtain a first mixed raw material, heating the first mixed raw material at a temperature allowing for mut...
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JP6389378B2 |
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JP6376209B2 |
To provide manganese-based alloy powder capable of manufacturing a molding being excellent in consolidation properties at the time of molding and having high mechanical properties, and the manganese-based alloy molding being manufactured...
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JP6373557B2 |
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JP6370595B2 |
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JP6367477B2 |
Provided are a CaMg2-based alloy hydride material for hydrolysis production of hydrogen, a preparation method therefor and a use thereof. The material has a general formula of CaMgxMyHz, wherein M is Ni, Co or Fe, 1.5≤x<2.0, 0
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JP6361051B2 |
A method of manufacturing a flame-retardant magnesium alloy having mechanical properties of a long period stacking ordered magnesium alloy and having an ignition temperature of 800°C or more is provided. The method of manufacturing a fl...
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JP2018093152A |
To provide a thermoelectric power generation device in which bond strength is high between a thermoelectric power generation semiconductor element and an electrode material, junction reliability is ensured between the thermoelectric powe...
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JP2018515156A |
The biodegradable body prosthesis comprises a biodegradable body containing an alloy containing at least 85 weight percent magnesium and at least one high melting temperature element having a melting temperature above 700 ° C. This allo...
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JP6339616B2 |
An improved magnesium-based alloy for wrought applications is disclosed, including a method of fabricating alloy sheet from said alloy. The improved magnesium-based alloy consists of: 0.5 to 4.0% by weight zinc; 0.02 to 0.70% by weight a...
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JP6329714B1 |
Al is 5.0% by mass or more and 15.0% by mass or less, Sr is 2.5% by mass or more and 7.0% by mass or less, Ca is 0.05% by mass or more and less than 3.0% by mass, Mn is 0.1% by mass or more and 0.6% by mass or less, and the balance is Mg...
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JP2018075045A |
To provide a method for manufacturing a high-purity magnesium material having a strength equal to an implant made of titanium or titanium alloy generally used, maintaining characteristics of biodegradability while using high-purity magne...
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JP2018512500A |
The present invention relates to biodegradable magnesium and a method for producing the same. The biodegradable magnesium according to the present invention is characterized in that the biodegradation rate is controlled by using the diff...
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JP2018062702A |
To provide a magnesium alloy excellent in heat resistance and toughness.A magnesium alloy contains Al as much as 6.5 mass% or more and 7.5 mass% or less, a rare-earth element as much as 1.5 mass% or more and 2.5 mass% or less, Ca as much...
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JP2018062701A |
To provide a magnesium alloy excellent in heat resistance.A magnesium alloy contains Al as much as 4.5 mass% or more and 5.5 mass% or less, a rare-earth element as much as 1.7 mass% or more and 2.3 mass% or less, Ca as much as 0.7 mass% ...
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JP6312319B2 |
To provide a magnesium air battery which can achieve a higher output than outputs of conventional well-known ones.A magnesium air battery is arranged so as to use a magnesium alloy as an active material of a negative electrode, and oxyge...
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JP2018041530A |
To reduce damages on an organism due to accidental ingestion of a coin-shaped battery.CLAIM 1: A coin-shaped battery comprises: a case having a bottom plate part and a side part rising up from a peripheral edge of the bottom plate part; ...
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JP6295329B2 |
An exemplary embodiment of the present invention provides a coated steel sheet on which a magnesium-aluminum alloy coating layer is formed, including: a steel sheet; and a coating layer configured to include a first magnesium-aluminum al...
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JP6290520B1 |
It is an object of the present invention to provide a magnesium-lithium alloy suitable for use in a negative electrode of an air battery, and a negative electrode and a magnesium air battery using the alloy. The magnesium-lithium alloy o...
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JP6278379B2 |
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JP6274483B2 |
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JP6257030B2 |
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JP6257069B2 |
Provided is a thin, narrow tube for use in a biodegradable medical device formed from a round tube made of a magnesium material as the base material, in which a desired outer diameter and an inner diameter are provided with good precisio...
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JP2017206757A |
To provide a resolvable magnesium alloy high in resolvability.The resolvable magnesium alloy consists of magnesium, one or more specific element elected from a group of Cr, Fe, Cd, Pb, Sn, Cu, Co, Ni, Ti, Ag, C, Sb and Bi of 0.001 wt% ba...
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JP6235513B2 |
According to one embodiment, a magnesium-lithium alloy in which at least lithium is added to magnesium is manufactured by giving a strain to a magnesium-lithium alloy workpiece, after a solution treatment, and progressing an aging of the...
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JP6230603B2 |
The present invention relates to platelet-shaped zinc-magnesium pigments, wherein the platelet-shaped zinc-magnesium pigments comprise the 40.8 to 67.8 mol % of zinc, 32.2 to 59.2 mol % of magnesium and 0 to 7 mol % of Mn, Li, Be, Y, Sn,...
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JP2017197846A |
To provide a device for fixing an organism soft tissue consisting of a magnesium-based alloy material and having strength and deformability for use as a device for fastening organism soft tissues cut or separated by incision or the like ...
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JP6222666B2 |
Provided is a production method with high productivity, which is not susceptible to the occurrence of cracks and thus has high yield when a sintered body of a thermoelectric conversion material is produced or when a sintered body for a t...
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JP2017193734A |
To provide: a sintered body 7 of a magnesium alloy or an aluminum alloy having enhanced sintering degree by sintering after cold compacting alloy fine particles 5 with an ultra fine structure; a sound quality and close forging article 12...
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JP6219399B2 |
The disclosure relates to thermoelectric materials prepared by self-propagating high temperature synthesis (SHS) process combining with Plasma activated sintering and methods for preparing thereof. More specifically, the present disclosu...
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JP6213901B2 |
Provided are a magnesium alloy sheet having excellent formability in plastic forming, such as press forming, and a magnesium alloy structural member. The magnesium alloy sheet is obtained by subjecting a magnesium alloy to rolling and ha...
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JP2017179541A |
To provide a magnesium alloy hardly generating blowhole defects or unfilled defects when used for casting.A magnesium alloy for casting contains 0.5 wt.% to 10 wt.% of germanium and the balance magnesium with inevitable impurities.SELECT...
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JP2017171964A |
To provide a magnesium alloy sinter billet capable of increasing strength and ductility of manufactured forging material when warm forging is conducted for example at 300 to 450°C and a manufacturing method therefor.A magnesium alloy si...
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JP6199190B2 |
To provide a magnesium alloy which is made lightweight and furthermore whose fire retardancy can be secured, and a production method thereof, a body structure of a rolling stock and a body structure of traffic transportation means.Calciu...
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